U.S. patent application number 14/520260 was filed with the patent office on 2015-02-05 for system and method of a knowledge management and networking environment.
The applicant listed for this patent is VCVC III LLC. Invention is credited to Chris Jones, Peter Royal, Nova Spivack, Lewis Tucker, Scott White, James M. Wissner.
Application Number | 20150039655 14/520260 |
Document ID | / |
Family ID | 40455555 |
Filed Date | 2015-02-05 |
United States Patent
Application |
20150039655 |
Kind Code |
A1 |
Spivack; Nova ; et
al. |
February 5, 2015 |
SYSTEM AND METHOD OF A KNOWLEDGE MANAGEMENT AND NETWORKING
ENVIRONMENT
Abstract
Systems and methods of a knowledge management networking are
disclosed here. In one aspect, embodiments of the present
disclosure include a method, which may be implemented on a system,
of hosting a web-space having a plurality of objects, the plurality
of objects to include one or more of, representations of a set of
users, a set of web-items, and a set of nets; wherein a net of the
set of nets is a subset of the web-space comprising a sub-plurality
of the plurality of objects. One embodiment can include, tracking
an explicit relationship between a first set of at least two
objects of the set of objects; the explicit relationship to be
pre-determined by a user of the set of users, identifying an
implicit relationship between a second set of at least two objects
of the set of objects; the implicit relationship to be identified
based on a semantic relationship between the at least two objects,
and determining a default set of privacy rules governing access
between the at least two objects based on one or more of the
identified explicit relationship and the implicit relationship.
Inventors: |
Spivack; Nova; (Sherman
Oaks, CA) ; Jones; Chris; (Mill Valley, CA) ;
Royal; Peter; (San Francisco, CA) ; Tucker;
Lewis; (San Francisco, CA) ; White; Scott;
(Seattle, WA) ; Wissner; James M.; (San Francisco,
CA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
VCVC III LLC |
Seattle |
WA |
US |
|
|
Family ID: |
40455555 |
Appl. No.: |
14/520260 |
Filed: |
October 21, 2014 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
11874881 |
Oct 18, 2007 |
8868560 |
|
|
14520260 |
|
|
|
|
60972815 |
Sep 16, 2007 |
|
|
|
Current U.S.
Class: |
707/803 |
Current CPC
Class: |
G06F 40/30 20200101;
G06Q 30/0273 20130101; G06Q 30/02 20130101; G06F 16/25 20190101;
G06F 16/367 20190101; G06Q 30/0253 20130101; H04L 65/403
20130101 |
Class at
Publication: |
707/803 |
International
Class: |
G06F 17/30 20060101
G06F017/30; G06F 17/27 20060101 G06F017/27; H04L 29/06 20060101
H04L029/06 |
Claims
1. A knowledge database method, comprising: creating a knowledge
database associated with a web-space comprising a networking
environment; the web-space comprising one or more of
representations of service subscribers and web-content; storing a
predetermined set of ontologies in the knowledge database; and
maintaining an update-able set of taxonomies based on identified
tags in the web-space.
2. The method of claim 1, further comprising, storing in the
knowledge database, a set of questions asked by one or more service
subscribers, and at least one answer to a question of the set of
questions provided by another user.
3. The method of claim 2, further comprising, providing a ratings
system for service subscribers to rate the at least one answer to
the question and storing the ratings in the knowledge database.
4. The method of claim 1, further comprising, storing in the
knowledge database, one or more of facts and statistics provided by
the service subscribers.
5. The method of claim 1, further comprising, storing and updating
in the knowledge database, products and service listings, the
products and service listings to be semantically tagged and are
semantically linkable to one or more of the services subscribers
and the web-content in the web-space.
6. A system, comprising: a processor and memory, cooperating to
function as: a creating component configured to create a knowledge
database associated with a web-space, wherein the web-space
comprises a networking environment, one or more of representations
of service subscribers and web-content; a storing component
configured to store a predetermined set of ontologies in the
knowledge database; and a maintaining component configured to
maintain an update-able set of taxonomies based on identified tags
in the web-space.
7. The system of claim 6, the processor and memory further
cooperating to function as a second storing component configured to
store in the knowledge database, a set of questions asked by one or
more service subscribers, and at least one answer to one of the set
of questions provided by a service subscriber different from the
one or more service subscribers.
8. The system of claim 7, the processor and memory further
cooperating to function as a providing component configured to
allow service subscribers to provide ratings on the at least one
answer to the question and storing the ratings in the knowledge
database.
9. The system of claim 6, the processor and memory further
cooperating to function as a second storing component configured to
store in the knowledge database, one or more of facts and
statistics provided by the service subscribers.
10. The system of claim 6, the processor and memory further
cooperating to function as an updating component configured to
store and update in the knowledge database, products and service
listings, the products and service listings to be semantically
tagged and are semantically linkable to one or more of the services
subscribers and the web-content in the web-space.
11. A machine-readable storage medium having stored thereon a set
of instructions which when executed perform a method, the method
compromising: creating a knowledge database associated with a
web-space comprising a networking environment, one or more of
representations of service subscribers and web-content; storing a
predetermined set of ontologies in the knowledge database; and
maintaining an update-able set of taxonomies based on identified
tags in the web-space.
12. The storage medium of claim 11, the method further comprising,
storing in the knowledge database, a set of questions asked by one
or more service subscribers, and at least one answer to a question
of the set of questions.
13. The storage medium of claim 12, the method further comprising,
providing a ratings system for service subscribers to rate the at
least one answer to the question and storing the ratings of the
service subscribers in the knowledge database.
14. The storage medium of claim 11, the method further comprising,
storing in the knowledge database, one or more of facts and
statistics provided by the service subscribers.
15. The storage medium of claim 11, the method further comprising,
storing and updating in the knowledge database, products and
service listings that are to be semantically tagged and are
semantically linkable to one or more of the services subscribers
and the web-content in the web-space.
Description
CLAIM OF PRIORITY
[0001] This is a Divisional of U.S. application Ser. No. 11/874,881
entitled "SYSTEM AND METHOD OF A KNOWLEDGE MANAGEMENT AND
NETWORKING ENVIRONMENT," filed on Oct. 18, 2007 which claims
priority to U.S. Patent Application No. 60/972,815 entitled "System
and Method of Collecting Market-related Data Via A Web-Based
Networking Environment", which was filed on Sep. 16, 2007, the
contents of which are expressly incorporated by reference
herein.
TECHNICAL FIELD
[0002] The present disclosure relates generally to knowledge
networking, and in particular to semantics enabled knowledge
networking.
BACKGROUND
[0003] Human intelligence and knowledge is becoming increasingly
digitized. Not only is information and data generated, created,
and/or stored digitized form, frequently, knowledge, information,
and other forms of intellectual content are increasingly
distributed, offered, disseminated, collected, shared, and/or
edited in digitized format.
[0004] Traditional formats of knowledge dissemination via books and
magazines continue albeit various efforts exist to create digital
formats of existing books and magazines such that they can be
accessible via the Internet through channels such as online
libraries with public or restricted (e.g., subscription-based,
fee-based) access. Furthermore, scientific publications and
research journals are becoming predominantly accessed by students,
faculty, and/or researchers via online channels since they are
typically available sooner than their hardcopy counterparts. Online
dictionaries, encyclopedias, wikis (e.g., Wikipedia), have become
an integral source of many formal and informal education
processes.
[0005] In addition, due to ease of digital communication and
dialogue to facilitate information exchange, intellectual content
is being created in forms logged in formats such as through email
messages, instant messaging, RSS, portable devices (e.g., SMS and
email), digital images, videos, and/or online social networks, etc.
The wide-array of formats in which intellectual content is being
generated and/or distributed among has made knowledge management
and collection a daunting task in the digital age.
[0006] For example, with the vast-array of digitized intellectual
content distributed among various sources and in various formats,
searching for the relevant information has become difficult.
Web-based search engines that focus on keyword matches for various
document fields such as author, abstract, key-topics, and/or
full-text sometimes do not yield the most relevant search results
to the user. In other situations, a keyword which is relevant to
content of a specific topic, simply is not explicitly referenced in
an article.
[0007] Further, managing ones knowledge collection via creating
files and folders in ones desktop operating system no longer
suffices the need to efficiently manage ones collection of content
and for the user to effectively track and/or identify/locate the
content of relevancy.
SUMMARY OF THE DESCRIPTION
[0008] A variety of systems, methods, techniques and strategies
related to knowledge management and sharing via a web-based
networking environment to leverage collective intelligence are
described here. Some embodiments of the present disclosure are
summarized in this section.
[0009] In one aspect, embodiments of the present disclosure include
a method, which may be implemented on a system, of knowledge
networking. The method includes hosting a web-space having a
plurality of objects. The plurality of objects can include
representations of a set of users, a set of web-items, and/or a set
of nets. A net of the set of nets can be a subset of the web-space
comprising a sub-plurality of the plurality of objects. One
embodiment further includes tracking an explicit relationship
between a first set of at least two objects of the set of objects.
The explicit relationship is, in some embodiments, pre-determined
by a user of the set of users and identifying an implicit
relationship between a second set of at least two objects of the
set of objects. The implicit relationship, is, in some embodiments,
identified based on a semantic relationship between the at least
two objects. One embodiment further includes determining a default
set of privacy rules governing access between the at least two
objects based on the identified explicit relationship and/or the
implicit relationship.
[0010] Semantic metadata of the plurality of objects in the
web-space can be identified from, user metadata of the set of
users, web-item metadata of the set of web-items, and/or net
metadata of the set of nets. The metadata of the web content may
include information associated with one or more of a type,
property, intellectual content, a set of keywords, a set of tags,
and access rights of the web content. In addition, the metadata of
the web content can further provide data associated with multimedia
composition of the web content. The multimedia composition
typically includes, textual, graphics, video, interactive, and
animation content.
[0011] One embodiment further includes automatically identifying
semantic tags from the semantic metadata via Natural Language
Processing, entity extraction, and/or ontological classification
and identifying semantic tags based on one or more of an identified
topic of content of the plurality of objects and user
specification. Semantic tags can be compared with one or more
knowledge databases. The set of web-items may include one or more
of, an email, a bookmark, a web-page, an RSS/Atom, a document, a
text file, a video file, an audio file, a contact, data records,
applications, and/or data exported from other applications
[0012] One embodiment includes identifying the implicit
relationship based a keyword match and/or a social link. The social
link can include a semantic social link. In addition, the explicit
relationship can include, a connection between two users of the set
of users in the web-space having a pre-determined relationship, an
association of a given user with a web-item in the web-space when
the given user requests to add the web-item to the web-space,
and/or an association of a specific user with a net. The
association of the specific user with the net can include, creation
of the net by the specific user, and/or membership of the specific
user in the net.
[0013] In one aspect, embodiments of the present disclosure include
a method, which may be implemented on a system, of creating a first
net in the web-space. The user can be designated as having a
membership status of an administrative member of the first net, in
response to receiving a request from an administrator user. One
embodiment includes associating one or more web-items with the
first net responsive to a request of the net administrator and
setting membership criteria of the first net governing user
association with the first net. The membership criteria can, in
some embodiments, be specifiable by the net administrator. One
embodiment further includes associating a user with the first net,
in response to receiving a request from one or more of the net
administrator and the user. The request for membership from the
user can be granted when in compliance with the membership criteria
and the user can be designated as having a membership status of a
member of the first net.
[0014] One embodiment includes presenting a web-item of the first
net to a requesting party, responsive to a request from the
requesting party when in compliance with the access right of the
web-item. The requesting party can be the administrative member, a
member, and/or a visitor of the first net. In one embodiment, in
response to receiving a request from a requesting party, one or
more web-items are associated with the first net when in compliance
with the access rights. The compliance can be determined based user
metadata and/or membership status of the requesting party. In some
embodiments, the requesting party is one or more of the
administrative member, a member, and/or a visitor of the first net.
The pre-determined set of tiered access levels can include one or
more of a private level, a group level, and/or a public level.
[0015] In another aspect, embodiments of the present disclosure
include a method, which may be implemented on a system, of semantic
social linking One embodiment includes identifying a first set of
web-items and a first set of nets having one or more of the
explicit relationship and implicit relationship with a first user
and/or identifying a first set of semantic tags The first set of
semantic tags are, in some embodiments, determined from metadata of
the first set of web-items, metadata of the first set of nets, and
user metadata of the first user. The plurality of objects in the
web-space are typically searched for a second set of web-items
and/or a second set of nets having a second set of semantic tags
that are semantically related to the first set of semantic tags.
One embodiment further includes identifying a second set of users
having one or more of the explicit relationship and/or implicit
relationship with one or more of the second set of web-items and
the second set of nets. The first user and the second set of users
can thus be identified as semantically socially linked
[0016] One embodiment includes searching the user metadata of the
set of users in the web-space for a third set of semantic tags that
are semantically related to the first set of semantic tags. A third
set of users having the explicit relationship and/or the implicit
relationship with one or more of a third set of web-items and/or a
third set of nets associated with the third set of semantic tags
can be identified. The third set of users are, in some embodiments,
identified as semantically socially linked with the first user
and/or identifying a first set of keywords from the metadata of the
first set of web-items, metadata of the first set of nets, and/or
user metadata of the first user.
[0017] In yet another aspect, embodiments of the present disclosure
include a method, which may be implemented on a system, of targeted
searching. One embodiment includes, receiving a request for one or
more objects related to a search query submitted by a search user
of the set of users. The request can include a request to perform
the search query among a set of socially connected users having a
predetermined social relationship. In one embodiment, the set of
socially connected users having the predetermined social
relationship are identified. One embodiment further includes
generating a set of search results via searching the objects
associated with the set of users having the predetermined social
relationship to identify the one or more objects having a
relationship with the search query. The relationship can be based
on a keyword match and/or a semantic link.
[0018] One embodiment further includes, ranking the set of search
results via determining a social distance between the search user
and at least one socially connected user of the set of socially
connected users having an object that is related to the search
query. The social distance can be proportional to the degree of
social separation between the search user and the at least one
socially connected user.
[0019] In yet another aspect, embodiments of the present disclosure
include a method, which may be implemented on a system, of
push-model based sharing. One embodiment includes, automatically
identifying to a first user, indication that one or more objects
associated with a second user of potential interest to the first
user are present and relaying a request made by the first user to
access the one or more objects to the second user. In one
embodiment, the one or more objects are presented to the first user
upon receiving an authorization of the second user. The indication
can be presented via partial visibility of the one or more objects.
The partial visibility status is, in one embodiment, elect-able by
the second user associated with the one or more objects. In one
embodiment, the partial visibility status of the one or more
objects is the default status granted by the second user to another
user not having one or more of a predetermined type of social
relationships with the second user.
[0020] In a further aspect, embodiments of the present disclosure
include a method, which may be implemented on a system, of a
knowledge database. One embodiment includes creating a knowledge
database associated with a web-space comprising a networking
environment; the web-space comprising one or more of
representations of service subscribers and web-content and/or
storing a predetermined set of ontologies in the knowledge
database. In addition, an update-able set of taxonomies can be
maintained based on identified tags in the web-space. One
embodiment further includes storing in the knowledge database, a
set of questions asked by one or more service subscribers, and at
least one answer to a question of the set of questions provided by
another user and/or providing a ratings system for service
subscribers to rate the at least one answer to the question and
storing the ratings in the knowledge database.
[0021] In one embodiment, one or more of facts and statistics
provided by the service subscribers are stored in the knowledge
database. In addition, products and service listings can be stored
an updated in the knowledge database. The products and service
listings are, in some embodiments, semantically tagged and/or are
semantically linkable to one or more of the services subscribers
and the web-content in the web-space
[0022] The present disclosure includes systems which perform these
methods, including processing systems which perform these methods,
and computer readable media which when executed on processing
systems cause the systems to perform these methods.
[0023] Other features of the present disclosure will be apparent
from the accompanying drawings and from the detailed description
which follows.
BRIEF DESCRIPTION OF THE DRAWINGS
[0024] FIG. 1 illustrates a block diagram of a plurality of client
devices able to communicate with a plurality of content providers
and a server hosting a knowledge management and networking
environment through a network, according to one embodiment.
[0025] FIG. 2 depicts a block diagram of the components of a host
server for a knowledge management and networking environment,
according to one embodiment.
[0026] FIG. 3A depicts a block diagram illustrating a database for
storing user information of users (visitors and/or service
subscribers) and a database for storing user group information,
according to one embodiment.
[0027] FIG. 3B depicts a block diagram of a database for storing
items, a database for storing emails, and a database for storing
photographs, according to one embodiment.
[0028] FIG. 3C depicts a block diagram of a database for storing
popular searches, a database for storing popular tags, a database
for storing popular nets, and a database for storing user nets,
according to one embodiment.
[0029] FIG. 3D depicts a block diagram of a database for storing
ontologies and a database for storing promotional content
sponsorship information, according to one embodiment.
[0030] FIG. 4A illustrates a screenshot of a login screen to access
the knowledge management and networking environment, according to
one embodiment.
[0031] FIG. 4B illustrates an example screenshot of a graphical
user interface for user information and subscription management,
according to one embodiment.
[0032] FIG. 5 illustrates an example screenshot of a graphical user
interface displaying relationships between a user and contacts of
the user in the knowledge management and networking environment,
according to one embodiment.
[0033] FIG. 6A illustrates an example screenshot of a graphical
user interface for a user to access and manage various services
provided by the knowledge management and networking environment,
including connections, items, tags, and/or events, according to one
embodiment.
[0034] FIG. 6B illustrates an example screenshot of a graphical
user interface displaying third party web content hosted by the
knowledge management and networking environment, according to one
embodiment.
[0035] FIG. 6C illustrates an example screenshot of a graphical
user interface for sharing the web content shown in FIG. 6B with
another user net, according to one embodiment.
[0036] FIG. 6D illustrates an example screenshot of a graphical
user interface for sharing the web content shown in FIG. 6B with
another user, according to one embodiment.
[0037] FIG. 7A illustrates an example screenshot of a graphical
user interface for viewing and managing web content added to the
knowledge management and networking environment, according to one
embodiment.
[0038] FIG. 7B illustrates an example screenshot of an applet for
adding web content to the knowledge management and networking
environment from the original web page hosting the web content,
according to one embodiment.
[0039] FIG. 8A depicts a block diagram illustrating hardware and/or
software components of a system for providing various services
offered by the knowledge management and networking environment,
according to one embodiment.
[0040] FIG. 8B depicts a diagrammatic representation of nets in a
web-space and relationships that can exist between objects within
and across nets, according to one embodiment.
[0041] FIG. 8C depicts a diagrammatic representation of
sub-portions of a net having different privacy settings, according
to one embodiment.
[0042] FIG. 8D depicts a diagrammatic representation of types of
objects that can have implicit and/or explicit relationships with
other objects, according to one embodiment.
[0043] FIG. 8E depicts tables illustrating example lists of the
types of explicit relationships and implicit relationships that can
exist among objects in the knowledge networking environment,
according to one embodiment.
[0044] FIG. 9 depicts a flow diagram illustrating a process of
hosting web content in the knowledge management and networking
environment at the request of a user, according to one
embodiment.
[0045] FIG. 10A illustrates an example user interface for signing
up for the knowledge networking environment and an example user
interface for viewing and/or editing the user's profile, according
to one embodiment.
[0046] FIG. 10B illustrates an example user interface for reviewing
and/or editing the user's profile, according to one embodiment.
[0047] FIG. 11A illustrates an example sequence of user interfaces
for inviting a user to join the knowledge networking environment
and an example sequence of user interfaces for inviting another
user to connect, according to one embodiment.
[0048] FIG. 11B illustrates an example sequence of user interfaces
for removing and/or updating a connection, according to one
embodiment.
[0049] FIG. 11C illustrates an example user interface showing a
list of contacts, according to one embodiment.
[0050] FIG. 11D illustrates an example user interface showing a
list of users associated with a net, accordingly to one
embodiment.
[0051] FIG. 11E illustrates an example user interface displaying a
partial list of the user's contacts on the first user contract'
page, according to one embodiment.
[0052] FIG. 12A illustrates an example user interface showing a
user welcome screen, according to one embodiment.
[0053] FIG. 12B illustrates an example user interface showing a
view of objects (items) in a net and an example user interface for
exploring/browsing nets, according to one embodiment.
[0054] FIG. 12C illustrates an example user interface for exploring
nets, according to one embodiment.
[0055] FIG. 13A illustrates an example user interface showing the
home page of a net, according to one embodiment.
[0056] FIG. 13B illustrates an example user interface showing an
object (item) posted to a net via email, according to one
embodiment.
[0057] FIG. 13C illustrates an example user interface showing an
object (item) posted to a net via email, according to one
embodiment.
[0058] FIG. 14A illustrates an example user interface for exploring
nets in the knowledge networking environment, according to one
embodiment.
[0059] FIG. 14B illustrates an example user interface for searching
for an additional set of search results having a specified type of
relationship with a first set of search results, according to one
embodiment.
[0060] FIG. 14C illustrate an example user interface for searching
for an additional se of search having a specified type of
relationship with a first set of search results, according to one
embodiment.
[0061] FIG. 15A illustrates an example user interface for creating
a note object in a net and an example user interface showing a note
object in a net, according to one embodiment.
[0062] FIG. 15B illustrates an example user interface for adding a
video object to a net and an example user interface for adding a
photo object to a net, according to one embodiment.
[0063] FIG. 15C illustrates example user interfaces for adding a
book object, a document, and a bookmark to a net, according to one
embodiment.
[0064] FIG. 15D illustrates an example user interface for adding a
photo object to a net, according to one embodiment.
[0065] FIG. 15E illustrates example user interfaces for adding a
book object, according to one embodiment.
[0066] FIG. 15F illustrates an example user interface for adding a
document, according to one embodiment.
[0067] FIG. 15G illustrates an example user interface for adding a
bookmark to a net, according to one embodiment.
[0068] FIG. 16 A illustrates screenshots of example user interfaces
for sharing objects (items) with nets and connections, according to
one embodiment.
[0069] FIG. 17A illustrates example user interfaces for importing
bookmarks, according to one embodiment.
[0070] FIG. 17B illustrates example user interfaces for importing
contacts, according to one embodiment.
[0071] FIG. 17C illustrates example user interfaces for importing
contacts, according to one embodiment.
[0072] FIG. 17D illustrates an example user interface for
displaying a contact list, according to one embodiment.
[0073] FIG. 18 depicts a flow diagram illustrating a process of
identifying semantic metadata of objects in a web-space, according
to one embodiment.
[0074] FIG. 19 depicts a flow diagram illustrating a process of
managing a net in the knowledge networking environment, according
to one embodiment.
[0075] FIG. 20 depicts a flow diagram illustrating a process of
identifying semantic social links in the knowledge networking
environment, according to one embodiment.
[0076] FIG. 21 depicts a flow diagram illustrating a process of
making intelligent recommendations to users of the knowledge
networking environment, according to one embodiment.
[0077] FIG. 22 depicts a flow diagram illustrating a process of
creating and updating a knowledge database in the knowledge
networking environment, according to one embodiment.
[0078] FIG. 23 depicts a flow diagram illustrating a process of
creating and updating a knowledge database in the knowledge
networking environment, according to one embodiment.
[0079] FIG. 24 depicts a flow diagram illustrating a process of
determining the category of the subject matter of a piece of
intellectual content, according to one embodiment.
[0080] FIG. 25 depicts a flow diagram illustrating a process of
ranking search results based on the degree of separation, according
to one embodiment.
DETAILED DESCRIPTION
[0081] The following description and drawings are illustrative and
are not to be construed as limiting. Numerous specific details are
described to provide a thorough understanding of the disclosure.
However, in certain instances, well-known or conventional details
are not described in order to avoid obscuring the description.
References to one or an embodiment in the present disclosure can
be, but not necessarily are, references to the same embodiment;
and, such references mean at least one of the embodiments.
[0082] Reference in this specification to "one embodiment" or "an
embodiment" means that a particular feature, structure, or
characteristic described in connection with the embodiment is
included in at least one embodiment of the disclosure. The
appearances of the phrase "in one embodiment" in various places in
the specification are not necessarily all referring to the same
embodiment, nor are separate or alternative embodiments mutually
exclusive of other embodiments. Moreover, various features are
described which may be exhibited by some embodiments and not by
others. Similarly, various requirements are described which may be
requirements for some embodiments but not other embodiments.
[0083] The terms used in this specification generally have their
ordinary meanings in the art, within the context of the disclosure,
and in the specific context where each term is used. Certain terms
that are used to describe the disclosure are discussed below, or
elsewhere in the specification, to provide additional guidance to
the practitioner regarding the description of the disclosure. For
convenience, certain terms may be highlighted, for example using
italics and/or quotation marks. The use of highlighting has no
influence on the scope and meaning of a term; the scope and meaning
of a term is the same, in the same context, whether or not it is
highlighted. It will be appreciated that same thing can be said in
more than one way.
[0084] Consequently, alternative language and synonyms may be used
for any one or more of the terms discussed herein, nor is any
special significance to be placed upon whether or not a term is
elaborated or discussed herein. Synonyms for certain terms are
provided. A recital of one or more synonyms does not exclude the
use of other synonyms. The use of examples anywhere in this
specification including examples of any terms discussed herein is
illustrative only, and is not intended to further limit the scope
and meaning of the disclosure or of any exemplified term. Likewise,
the disclosure is not limited to various embodiments given in this
specification.
[0085] Without intent to further limit the scope of the disclosure,
examples of instruments, apparatus, methods and their related
results according to the embodiments of the present disclosure are
given below. Note that titles or subtitles may be used in the
examples for convenience of a reader, which in no way should limit
the scope of the disclosure. Unless otherwise defined, all
technical and scientific terms used herein have the same meaning as
commonly understood by one of ordinary skill in the art to which
this disclosure pertains. In the case of conflict, the present
document, including definitions will control.
[0086] Embodiments of the present disclosure include systems and
methods of knowledge management and networking environment, for
example, through profiling collective data and/or profiling users.
Some embodiments of the present disclosure further include
semantically identifying relationships between data profiles and
user profiles to facilitate the management of information, and in
some instances, the identification of information to potential
interest to users.
[0087] In one aspect, the present disclosure relates to management
of a collection of knowledge and intellectual content in various
digital forms provided by users.
[0088] Users can contribute to the collection of intellectual
content in the knowledge networking environment by adding a variety
of web-items to the networking environment. Web-items can include
content of various digital formats. The users can further provide
user profile information to the knowledge networking environment.
For example, a user wishing to have their collection of information
automatically managed in an intelligent format can add this
collection to the knowledge networking system. Therefore, through
the system, the user thus has a centralized knowledge database
through which to access their collective knowledge that is managed
and organized based on intellectual content.
[0089] In addition, users typically have the option of providing
information about themselves, for example, through a user profile
interface provided by the networking platform. The networking
environment can utilize such information to deliver personalized
services such as providing more relevant search results and
identifying the presence of information in the network and/or
database of potential interest to a user but does not currently
exist in the user's knowledge network.
[0090] Typically, the user is additionally able to specify the
privacy and access attributes of content added to the knowledge
networking platform. The knowledge networking environment enforces
these rules when facilitating the knowledge management and
information sharing among the network of users in the networking
environment.
[0091] Additionally, the networking platform identifies metadata
associated with added content and user information and further
determines tags (e.g., keywords or semantic tags) associated with
user profiles and content in the networking environment.
Identification of metadata provides an avenue through which the
networking environment can manage knowledge for a user and to
facilitate efficacious information sharing and distribution among
the network of users.
[0092] In one aspect, the networking platform provides a mechanism
for users to create nets, or a subset of web-content of the
collective knowledge and information in the networking
platform.
[0093] The user can create a net via an interface provided by the
networking environment. The user can specify a name for the net. In
addition, in most instances, the net creator can determine the
content and the types of content that can be added to the net.
Further, the net creator typically sets membership criteria
specifying who can join the net and have access to one or more
specified sets of content in the net. In addition, rights to edit
content can also be specified by the net creator. Other
users/members with administrative rights including those to
determine access rights and membership criteria can be designated
as well
[0094] The net, is typically intended as a channel through which to
facilitate efficacious sharing and distribution of information by
grouping a sub-set of information under one net. Although there is
no limitation or specification on the type of knowledge/information
that can be added to a net, the net can be used as a user group
where a specific cause or idea is promoted. The net can be focused
on collecting content related to a particular topic and to gather
collective user input on the topic. In most instances, the net has
varying levels of access attributes associated with the contents
residing within. For example, the creator can designate a set of
contents to be private and is thus only visible to the creator and,
in some instances, a specific set of members. In addition, a shared
access level can be specified for a set of content that is
accessible by all members of the net. Similarly, a public access
level may be granted to some content that can be accessible by the
public, for example, users who are not members of the net, and/or
users that are visitors of the networking environment.
[0095] Similarly, those with administrative rights in the net, such
as but not limited to the creator user, typically specifies rights
to add and edit items in the net. For example, members of the net,
including the net creator, can contribute to the net by adding
knowledge and content, when authorized. The networking environment
can distribute and share this added information with other members
and in some instances, visitor members of the net, based on user
specification and rules applicable to the particular net. In one
aspect, the present disclosure further relates to identification of
tag that are strings and/or semantic in web-based objects.
[0096] The web-based objects can be, by way of example, but not
limitation, an email message, a text message forwarded as an email,
an RSS feed, a document/article, a note, user profile accessible by
the networking platform. Tags can be detected via an automatic
process and/or via a manual process facilitated by a user. For
example, tags are typically automatically detected as
parts-of-speech detection by natural language process and/or via
entity detection. In addition, tags are, in some embodiments,
automatically detected from metadata associated with the web-based
objects. Other methods of tagging include using identified subject
matter of a web-based object to assist and facilitate the tagging
process.
[0097] In some situations, tags can be used to track interests and
hobbies of a user. For example, the number of times the same tag is
detected in a user's knowledge collection provides an indication of
the level of interest the user has in a particular topic. Similarly
the number of different web-objects that the same tag appears in
may also be an indication of interest level in a particular topic.
By comparing tags against a knowledge database (e.g., ontologies,
taxonomies, folksonomies, facts, statistics, Q & As, FAQs,
etc.), various pieces of intellectual content in the knowledge
networking environment can be semantically linked. The linkage
provides a pathway for distributing and offering
information/knowledge to other users intelligently and
efficaciously.
[0098] In one aspect, the present disclosure relates to enabling a
user to search for objects in the networking environment associated
with other users that have specific types of relationships with the
user. In one aspect, the present disclosure relates to providing
recommendations of objects to users having a potential interest in
the objects.
[0099] For example, a user may wish to search for objects related
to vacation pictures, but only among family members of the user. In
addition, the user may wish to search to search for documents
related to patent law, but only among the user's colleagues. Other
types of objects can be searched for. In a further example, a user
may wish to search for the contact information of a business
contact who is connected with friends and/or other contacts of the
user that are within three degrees of separation from the user.
[0100] In some instances, if a connected or unconnected users has,
in their database, such as an article that the knowledge
environment determines may be of interest to a user, the system may
provide the recommendation to the user indicating that another user
has an article of potential interest. Depending on the privacy
preferences and setting of the connected or unconnected user, the
article can automatically be made available to the user. If the
user providing the article does not allow their objects to be
automatically made available, a request may be relayed to the
provider and access can be granted upon approval of the
provider.
[0101] A user can opt in to receive recommendations (e.g.,
push-model based sharing) because users may not always know the
search query terms to use to pull up relevant search results.
Further, new objects are typically continuously being added by
existing users and/or new users of the networking platform and
opting in to receive targeted/focused intelligent recommendations
can be an efficient way of keeping track of new objects that may be
of potential interest.
[0102] In one aspect, the present disclosure relates to
semantically socially linking users in the knowledge network and
knowledge/intellectual content contributed to the network.
[0103] The semantic social link can be provided between multiple
users, between users and content, and/or between content and
content. For example, two users can be semantically socially linked
when aspects of their user profiles have semantic relations. In
addition, two users can be semantically socially linked when their
respective knowledge collections (e.g., web-content, contacts,
emails, notes) have semantic relations.
[0104] In one aspect, the present disclosure relates to providing
search results to a user that includes an indication of the social
distance between the search results and the user in the networking
platform.
[0105] The social distance between a search result and a search
user is proportional to the degree of social separation between the
search user and the user associated with the search result. For
example, if the search query results in two documents, the first
document was added by a first degree contact whereas the second
document was added by a third degree contact, the first document
may be ranked higher than the second document, given the same
keyword and/or semantic relevance. For example, if a user wishes to
search for scientific publications within a particular research
field, the user may trust and therefore prefer to see publications
provided by researchers at the same resident research institute
rather than a neighboring institute.
[0106] In one aspect, the present disclosure relates to
facilitating sharing and distribution of intellectual content among
users (e.g., visitors and/or service subscribers) of the networking
environment.
[0107] Users can add items to the networking environment from a
number of external or third party sources. In addition, items can
be created by the user. For example, the user (e.g., a visitor
and/or service subscriber) can have one or more nets with differing
themes where each net has a collection of web content related to
the particular theme of the net. Items may include, by way of
example but not limitation, third-party web content, web content
developed by the user, emails, photography, contacts, notes, links,
events, tags, and/or any other textual, image, video, animated
data.
[0108] The user (e.g., a visitor and/or service subscriber) may be,
in some embodiments, an individual, an institution, business
entity, non-profit organization, or any other entity wishing to
promote an idea, service, and/or product through for example,
increased publicity, product placement, publication, announcement,
broadcast, commercial, endorsement, sponsorship, and/or sales
promotion. For example, the user (e.g., a visitor and/or service
subscriber) can be, but is not limited to, a political party, a
political candidate, a lobbying group, an interest group, a
religious organization, a company, a university, an online
retailer, an online wholesaler. Thus, promotional content can be
supplied to the networking environment to increase public exposure
for access and/or distribution purposes, in the push model and/or
the pull model-based promotional content distribution.
[0109] Since the networking environment hosts a number of users
(e.g., a visitor and/or service subscriber), and in many instances,
the systems and methods have access to and manage information of
the services subscribers, focused and targeted distribution of
promotional content to those likely to have an interest can be
achieved. In addition, promotional content is further propagated
through the connections of a user to other users. For example,
connected first and second users can have access to each other's
items.
[0110] Users can actively send web content (e.g., promotional
content) to other users to whom the content may be of interest.
Services subscribers (e.g., users) can create groups or join groups
having a common theme or interest (e.g., public or private nets).
Promotional content relevant to the theme or interest can be
automatically posted or shared with group members. Other methods
through which promotional content can be distributed through a
networking environment are contemplated and do not deviate from the
novel art of this disclosure.
[0111] In one aspect, the present disclosure relates to determining
statistical attributes associated with the popularity (e.g.,
sharing and/or distribution) of promotional content on the
networking environment.
[0112] Raw data related sharing and distribution of objects
including promotional content on the networking environment can be
collected and stored, to gauge interest in the promoted content. In
addition, the sharing and distribution of promotional content can
be measured relative to users and/or user data. In one embodiment,
statistical attributes of data related to object distribution and
sharing that can be determined, include, but is not limited to, the
number of visitors and/or service subscribers that collected the
object, the number of visitors who collected and/or shared the
object, average number of sharing actions per visitor/service
subscriber, speed of spread of object, acceleration of spread of
object, the volume of object collecting per unit time, and/or the
demographic, geographic, and/or psychographic distributions of the
statistical attributes.
[0113] Further, in addition to statistical analysis, additional
analyses can be performed on recorded data regarding sharing and
distribution of promotional content. For example, curve fitting,
principle component analysis, data mining, or discarding and
retaining subsets of data according to certain criteria, can be
performed and do not deviate from the novel art of this disclosure.
In addition to sharing and distribution, metrics related to the
performance level of promotional content can be measured and
quantified. For example, performance metrics can include, number of
views of the object, number of visits to a third party site to
obtain more information on the promoted content, number of searches
performed on the networking environment to obtain more information
on the promoted content, number of purchases that resulted from the
objected placed on the networking environment, etc.
[0114] In some embodiment, raw data and/or results of data analysis
can be provided to the content providers upon request or
automatically such that the content providers can deduce market
related information regarding the promotional content. Furthermore,
performance metrics (qualitative and quantitative) of the
promotional content, can be provided to the content providers. The
content providers may use the performance metrics, e.g., to
determine the effectiveness of various marketing channels or
various formats/digital content of the objects.
[0115] In one aspect, the present disclosure relates to a tiered
fee structure to provide varying levels of marketing-related
services to suit the varying business needs of clients (e.g.,
sponsors and/or promotional content providers).
[0116] Since the networking environment has access to user data
(e.g., subscription information, user declared hobbies/interests,
implicit interests identified from: objects collected, types of
objects collected, content of objects collected, etc.), targeted
and contextual advertising can be provided to the content provider.
The content provider can identify service subscribers having
particular hobbies/interests, subscribers that belong to certain
interest groups/nets/discussion groups, and/or forums, for
targeting distribution of the promotional content.
[0117] In addition, historical trends including raw data and/or the
analyzed data of a similar product/service previously promoted
through the networking environment provide additional insight to a
content provider, such as identifying specific demographics that
have demonstrated interest in the product/services. Such options
and access to historical data can be provided to content providers,
free of charge, or on a fee basis such that the content providers
and/or sponsors can better position their promotional content.
[0118] In one embodiment, semantic matching and placement can be
offered to promotional content providers and/or sponsors, for
example, free of charge, on a fee basis, or through any suitable
scheme. For example, through semantics, a particular
product/service can be linked to another relevant product/service
such that placement and distribution on the networking environment
can expand further to users not identified on keyword matching
alone. In one aspect, the present disclosure relates to providing
marketing-related services based on semantic matching. Objects with
promotional content can be tagged, automatically or manually, with
semantic meta-tags. In addition, user metadata can include semantic
metadata, thus enabling the networking system to perform semantic
matches, among objects (e.g., items including promotional content),
between objects and users, and among users.
[0119] In most instances, privacy attributes (inherent to the
system, specified by the content providers and/or the users) govern
the interactions occurring in the networking system. The privacy
attributes typically include a set of rules governing the
connecting, sharing, distribution, and/or access rights of objects
by services subscribers and content providers. The rules are
tracked and enforced in the transactions and interactions between
items, users and items, users and users, etc. In some embodiments,
interactive marketing, mobile marketing, and/or social marketing
are facilitated in the networking environment through utilizing
intelligent knowledge of promotional material and user
information.
[0120] FIG. 1 illustrates a block diagram of a plurality of client
devices 104A-N able to communicate with a plurality of content
providers 108A-N, 110 and a server 100 hosting a knowledge
networking environment through a network, according to one
embodiment.
[0121] The plurality of client devices 104A-N and content providers
108A-N, 110 can be any system and/or device, and/or any combination
of devices/systems that is able to establish a connection with
another device, a server and/or other systems. The client devices
104A-N and content providers 108A-N, 110 typically include display
or other output functionalities to present data exchanged between
the devices to a user. For example, the client devices and content
providers can be, but are not limited to, a server desktop, a
desktop computer, a computer cluster, a mobile computing device
such as a notebook, a laptop computer, a handheld computer, a
mobile phone, a smart phone, a PDA, a Blackberry device, a Treo,
and/or an iPhone, etc. In one embodiment, the client devices 104A-N
and content providers 108A-N, 110 are coupled to a network 106. In
some embodiments, the modules may be directly connected to one
another.
[0122] The network 106, over which the client devices 104A-N and
content providers 108A-N, 110 communicate, may be a telephonic
network, an open network, such as the Internet, or a private
network, such as an intranet and/or the extranet. For example, the
Internet can provide file transfer, remote log in, email, news,
RSS, and other services through any known or convenient protocol,
such as, but is not limited to the TCP/IP protocol, Open System
Interconnections (OSI), FTP, UPnP, iSCSI, NSF, ISDN, PDH, RS-232,
SDH, SONET, etc.
[0123] The network 106 can be any collection of distinct networks
operating wholly or partially in conjunction to provide
connectivity to the client devices, host server, and/or the content
providers 108A-N, 110 and may appear as one or more networks to the
serviced systems and devices. In one embodiment, communications to
and from the client devices 104A-N and content providers 108A-N,
110 can be achieved by, an open network, such as the Internet, or a
private network, such as an intranet and/or the extranet. In one
embodiment, communications can be achieved by a secure
communications protocol, such as secure sockets layer (SSL), or
transport layer security (TLS).
[0124] In addition, communications can be achieved via one or more
wireless networks, such as, but is not limited to, one or more of a
Local Area Network (LAN), Wireless Local Area Network (WLAN), a
Personal area network (PAN), a Campus area network (CAN), a
Metropolitan area network (MAN), a Wide area network (WAN), a
Wireless wide area network (WWAN), Global System for Mobile
Communications (GSM), Personal Communications Service (PCS),
Digital Advanced Mobile Phone Service (D-Amps), Bluetooth, Wi-Fi,
Fixed Wireless Data, 2G, 2.5G, 3G networks, enhanced data rates for
GSM evolution (EDGE), General packet radio service (GPRS), enhanced
GPRS, messaging protocols such as, TCP/IP, SMS, MMS, extensible
messaging and presence protocol (XMPP), real time messaging
protocol (RTMP), instant messaging and presence protocol (IMPP),
instant messaging, USSD, IRC, or any other wireless data networks
or messaging protocols.
[0125] FIG. 2 illustrates a block diagram of the components of a
host server 200 for knowledge networking, according to one
embodiment.
[0126] In the example of FIG. 2, the host server 200 includes a
network controller 202, a firewall 204, an image server 206, an
application server 208, a web application server 212, a mail server
214, and a database including a database storage 216 and database
software 218.
[0127] In the example of FIG. 2, the network controller 202 can be
a networking device that enables the host server 200 to mediate
data in a network with an entity that is external to the host
server, through any known and/or convenient communications protocol
supported by the host and the external entity. The network
controller 202 can include one or more of a network adaptor card, a
wireless network interface card, a router, an access point, a
wireless router, a switch, a multilayer switch, a protocol
converter, a gateway, a bridge, bridge router, a hub, a digital
media receiver, and/or a repeater.
[0128] The firewall 204, can, in some embodiments, govern and/or
manage permission to access/proxy data in a computer network, and
track varying levels of trust between different machines and/or
applications. The firewall 204 can be any number of modules having
any combination of hardware and/or software components able to
enforce a predetermined set of access rights between a particular
set of machines and applications, machines and machines, and/or
applications and applications, for example, to regulate the flow of
traffic and resource sharing between these varying entities. The
firewall 204 may additionally manage and/or have access to an
access control list which details permissions including for
example, the access and operation rights of an object by an
individual, a machine, and/or an application, and the circumstances
under which the permission rights stand.
[0129] Other network security functions can be performed or
included in the functions of the firewall 204, can be, for example,
but are not limited to, intrusion-prevention, intrusion detection,
next-generation firewall, personal firewall, etc. without deviating
from the novel art of this disclosure. In some embodiments, the
functionalities of the network controller 202 and the firewall 204
are partially or wholly combined and the functions of which can be
implemented in any combination of software and/or hardware, in part
or in whole.
[0130] In the example of FIG. 2, the host server 200 includes the
image server 206 or a combination of image servers to manage
images, photographs, animation, and/or other types of image data.
The image server 206 is any web server software suitable for
delivering messages to facilitate efficacious retrieval of image
data in web servers to be provided to other components and/or
systems of the host server 200, for example when rendering a web
page with images. In addition, the image server 206 can facilitate
streaming data such as streaming images and/or video. The image
server 206 can be configured separately or together with the web
application server 212, depending on a desired scalability of the
host server 200. Examples of graphics file formats that can be
managed by the image server 206 include but are not limited to,
ADRG, ADRI, AI, GIF, IMA, GS, JPG, JP2, PNG, PSD, PSP, TIFF, and/or
BMP, etc.
[0131] The application server 208 can be any combination of
software agents and/or hardware modules for providing software
applications to end users, external systems and/or devices. The
application server 208 can facilitate interaction and communication
with the web application server 212, or with other related
applications and/or systems. The application server 208 can in some
instances, be wholly or partially functionally integrated with the
web application server 212. The web application server 212 is any
combination of software agents and/or hardware modules for
accepting Hypertext Transfer Protocol (HTTP) requests from end
users, external systems, and/or external client devices and
responding to the request by providing the requestors with web
pages, such as HTML documents and objects that can include static
and/or dynamic content (e.g., via one or more supported interfaces,
such as the Common Gateway Interface (CGI), Simple CGI (SCGI), PHP,
JavaServer Pages (JSP), Active Server Pages (ASP), ASP.NET,
etc.).
[0132] In addition, a secure connection, SSL and/or TLS can be
established by the web application server 212. In some embodiments,
the web application server 212 renders the web pages having graphic
user interfaces of the networking environment as shown in the
example screenshots of FIGS. 4-7. The web pages provided by the web
application server 212 to client users/end devices enable user
interface screens 104A-104N for example, to be displayed on client
devices 102A-104N. In some embodiments, the web application server
212 also performs an authentication process before responding to
requests for resource access and data retrieval.
[0133] In one embodiment, the host server 200 includes a mail
server 214 including software agents and/or hardware modules for
managing and transferring emails from one system to another, such
as but is not limited to Sendmail, Postfix, Microsoft Exchange
Server, Eudora, Novell NetMail, and/or IMail, etc. The mail server
214 can also store email messages received from the network. In one
embodiment, the mail server 214 includes a storage component, a set
of access rules which may be specified by users, a list of users
and contact information of the users' contacts, and/or
communication modules able to communicate over a network with a
predetermined set of communication protocols.
[0134] The databases 216, 218 can store software, descriptive data,
images, system information, drivers, and/or any other data item
utilized by other components of the host server for operation. The
databases 216, 218 may be managed by a database management system
(DBMS), for example but not limited to, Oracle, DB2, Microsoft
Access, Microsoft SQL Server, PostgreSQL, MySQL, FileMaker, etc.
The databases 216, 218 can be implemented via object-oriented
technology and/or via text files, and can be managed by a
distributed database management system, an object-oriented database
management system (OODBMS) (e.g., ConceptBase, FastDB Main Memory
Database Management System, JDOInstruments, ObjectDB, etc.), an
object-relational database management system (ORDBMS) (e.g.,
Informix, OpenLink Virtuoso, VMDS, etc.), a file system, and/or any
other convenient or known database management package.
[0135] In the example of FIG. 2, the host server 200 includes
components (e.g., a network controller, a firewall, a storage
server, an application server, a web application server, a mail
server, and/or a database including a database storage and database
software, etc.) coupled to one another and each component is
illustrated as being individual and distinct. However, in some
embodiments, some or all of the components, and/or the functions
represented by each of the components can be combined in any
convenient or known manner. Furthermore, the functions represented
by the devices can be implemented individually or in any
combination thereof, in hardware, software, or a combination of
hardware and software.
[0136] FIG. 3A depicts a block diagram illustrating a database for
storing user information of users (visitors and/or service
subscribers) 302 and a database for storing user group information
304, according to one embodiment.
[0137] In the example of FIG. 3A, the database 302A can store
information about users, including visitors and/or service
subscribers. For example, the user information stored can include
descriptive data of personal information such as, but is not
limited to, a first name and last name of the user, a valid email
ID, a unique user name, age, marital status, occupation, location,
education, home town, schools attended, number of siblings,
heritage, ethnicity, race, etc. The user information further
includes interest information, which may include, but is not
limited to, activities, hobbies, professional information, photos,
etc.
[0138] The database also stores web content (e.g., third-party)
provided by the user, for example, the web content themselves can
be stored, the types of web contents (e.g., email, vcf card,
calendar events, web content, web links, etc.), tags in the web
content, nets that the user belongs to, information of contacts,
connections to other users and/or items, etc. In one embodiment, a
user creates one or more nets with varying themes to which objects
(e.g., web content) can be added. The user can also join nets
created by other users and access items in the nets of the other
users, while conforming to the access rights specified by the other
users and specific for the nets. Further, in addition to storing
information of contacts in the database, the user is able to
connect to other users (e.g., visitors and/or service subscribers)
and specify a designated relationship to the other users. The
user's connections and the relationships of the connections (e.g.,
friends, relatives, and co-workers) are, in some embodiments,
stored in the database.
[0139] In one embodiment, user information stored in the database
is explicitly specified by the user. For example, when the user
(e.g., visitor/service subscriber) signs up for access to the
networking environment, a set of information may be required, such
as a valid email address, a username, and/or age. A user
information form can include optional entries, by way of example
but not limitation, location, activity, hobbies, ethnicity, photos,
etc. In one embodiment, user information is identified from web
content the user added to the networking environment. For example,
the networking environment can automatically determine user
interests and/or hobbies based on the identified intellectual
content of the web objects provided by the user. Hobbies and
interest can also be determined by, for example, but are not
limited to, the events that a user attends and/or common interests
of a user's contacts.
[0140] Each entry or a category of entries (e.g., subscription
information, personal information, interest information, etc.)
related to user information in the database 302A can have
permission settings regarding visibility and accessibility to other
users. The privacy settings may, in some embodiments, vary between
registered and non-registered users (visitors), contacts with
different relationships with the user (e.g., a friend, colleague,
family, etc.). In addition, the privacy settings may be different
and individually specifiable for each contact of a user.
[0141] An example of the user information for the user "Tom Jerry"
that is stored in database 302A is shown in 302B. The user "Tom
Jerry" has an email address of "TomJerry@radarnetworks.com", an age
of "25", is located in "Bermudas" and is "Bermudan" by ethnicity.
The user "Tom Jerry" is recorded to have an education level of "BS,
MBA", and likes to engage in activities related to "Scuba Diving,
outdoors activities". Specifically, "Tom Jerry" is also interested
in "Fishing". The items that "Tom Jerry" has provided include web
content, photographs, and emails.
[0142] The database 302A also records information about the content
of the items, for example, the items provided by "Tom Jerry"
includes "blogs on fishing" and "advertisements for
wetsuits/regulators", and "websites of online retailers selling
scuba diving gear"; recent content includes http://www.scuba.com
and "emails from Joe"; personal nets include "Snorkeling in the
Bermudas". The tags of Tom Jerry's web content include "Hawaii",
"Scuba masks", and "Sharks". "Tom Jerry" has also specified the
privacy settings such that the contents of Tom Jerry's web objects
and/or user information are "visible to contacts only". Tom Jerry's
contacts include "Anne Smith" and "Joe Shmoe"; he belongs to the
nets "World Peace" and "Snorkel Club"; he is also connected to
another user's item, for example "Joe's web link to a snorkel
vest".
[0143] With further reference to FIG. 3A, database 304A includes
data related to information of user groups formed in the networking
environment. A user can form a group, where invitees are invited to
join the group. Alternatively, one or more users can create a
group, for example, based on a common theme or interest. In other
examples, groups may be formed as a channel for sharing information
with a focused group of users within the networking environment,
with or without a common interest. Group data in the database 304A,
includes, for example, shared interests represented by the group.
The database, in addition, stores information about the privacy
attributes of the group, which can indicate group membership
criteria, access to information posted in the group between group
members and visitors, for example. Certain content and/or
information may only be visible and/or accessible to a subset of
members of the group. In addition, items posted on the group net
may not be visible to users that are not members of the group. The
database further stores membership information regarding the
members of the group, membership requests, and/or items that are
shared between group members.
[0144] An example of group information stored in the database 304A
is shown in 304B for "the Under-water Club". The group interests
include "diving", "snorkeling", and the "Peace Corps". The privacy
attributes of "The Under-water Club" are "invite only", which
indicates that a user can only join the group when a membership
request is approved. Current members of "The Under-water club"
include "Tom Jerry" and "Anne Smith"; a membership request is
currently active for user "Joe Shmoe". The shared items between the
members of "The Under-water Club" include "Underwater Photography"
and "Online retailers for underwater gear".
[0145] FIG. 3B depicts a block diagram of a database for storing
items 312A, a database for storing emails 314A, and a database for
storing photographs 316A, according to one embodiment.
[0146] The database 312A can store data regarding information of
items (referred to herein after as "item data") provided by users.
The items are, in some instances, web objects, such as, web
content, emails, photography, emails, calendar events, contact
information, etc. Item data stored in the database can also include
information about the item type, the subject matter of the content
provided in the item (e.g., whether the web content contains
information regarding fishing, the presidential election, etc.),
and/or who added the item to the networking environment (e.g., the
user that posted the item, or the user that authored the item).
Item data can also include information regarding the privacy
attributes associated with the item. For example, if the item can
be viewed publicly, if the item can only be viewed by registered
users, if the item is blocked from particular users, if the item is
public to users that belong to certain user groups, if the item is
available upon request on an individual or subgroup basis, etc.
[0147] Item data may further include the number of views of the
item. For example, the number of views can be stored as the total
number of views since the item has been posted, the number of views
for a predetermined amount of time (e.g., a day, an hour, last 12
hours, etc.), the total number of views from users that belong to a
particular user group, from users having a particular interest, are
some ways that popularity of an item can be determined. In some
embodiments, the same item may be posted on the networking
environment by different users, thus, the database can include item
data to indicate how many users have posted the same item.
[0148] In addition, item data regarding the number of collections
of an item can be stored in the database 312A. For example, once an
item has been visited, a user may wish to add an item of interest
to a net in the networking platform for future access. Similarly, a
user may bookmark (e.g., add the link to the item as a bookmark in
the web browser) an item for future access as an alternative to
collecting the item. A user may also wish to share an item (e.g.,
that either the user posted on the networking environment or
collected from another user) with a third user. In one embodiment,
item data indicative of item popularity, including but not limited
to, collection data, bookmarking data, and sharing data, data
indicating shares with other nets, is stored in the database
312A.
[0149] Additional item data that may be indicative of item
popularity include data of visits to the third-party web site
hosting the web content provided by the item, transactions (e.g.,
purchases, sales, rents, leases, bids, etc.) that occurred due to
viewing of the object via the networking environment, comments
and/or reviews related to the web content provided by the object,
for example. In one embodiment, item data stored in the database
312A include keywords identified from the content of the web
object.
[0150] In some embodiments, item data include semantic tags
identified from the web content, tagged by the system, tagged by
the user that provided the web content, tagged by the third party
content provider and/or tagged by the sponsor. Thus, in addition,
content/items related to the web content, web links containing
information related to the contents of the object, additional
content including topics similar to content provided by the object
can also be identified (e.g., based on a keyword match and/or a
semantic match) and stored in the database 312A.
[0151] In one embodiment, survey questions can be presented to a
user that demonstrated interest in the item. For example, interest
can be indicated when the user clicks on a link to the item, when
the user submits the item to the networking environment, when a
user bookmarks the item, when a user shares the item, when a user
collects the item, etc. The survey questions may be a predetermined
default set of questions or the survey questions may be provided by
the third-party that provided the web content. Thus, the survey
questions associated with an item are stored in the database 312A,
in one embodiment. The database 312A can further store data
indicating the triggers that cause a particular survey question to
be presented to a user. For example, a first set of questions can
be presented to a user when the user adds the item to the
networking environment, whereas a second set of questions are
presented to a user when the user shares an item with another user
on the networking environment.
[0152] An example of item data stored in the database 312A is shown
in 312B. The type of the item is "web content" and content of the
item belongs to the category of "Scuba gear". The item is posted
by/authored by "Tom Jerry" and its privacy attribute is "Public".
The item has had "31" views, "1" post, "3" collections, "13"
shares, "6" bookmarks, and "2" purchases via the networking
environment. The number of visits to the third-party content
provider site from a viewing of the item on the networking
environment is "5". The item status for comments and/or review is
"Not yet rated".
[0153] An object that is related to the content of the item is
stored on the database as an image of a pair of flippers. A related
link to the content of the item is
http://en.wikipedia.org/wiki/Scuba_diving. The related topics to
item content include "Snorkeling", "antipollution", "corals", and
"fish". The semantic tags related to the item include, "Bermuda",
"sharks", "Hawaii", "scuba gear", "masks", "waterproof camera",
"Cayman Islands", and "tropical". The survey questions associated
with the item are "what are your favorite places to shop for scuba
gear?" and "how often do you shop for scuba gear?"
[0154] The database 314A in the example of FIG. 3B stores the
emails and data/information associated with the emails (referred to
herein after as `email data`) added by the users to the networking
environment. Examples of email data that are stored include but are
not limited to the recipient(s) of the email, whom the email is
sent from, the content of the email, the semantic tags associated
with the email, the keywords identified from the text body of the
email, and/or scheduled events identifiable via the body of the
email.
[0155] An example of email data stored in the database 314A is
shown in 314B. The title of subject line of the email is "Sat.
September 22, meet at the Cayman Islands?" The recipients of the
email are "Anne" and "Joe", the email is sent from "Tom Jerry. The
identified content of the email is an "Invitation to the annual
scuba divers' symposium". The semantic tags identified from the
email, either tagged by a user, specified by the content provider,
or automatically identified by the networking environment, are
"scuba", "Cayman Islands", "meet", and "carpool". The identified
event to be scheduled in this email is "September 22--Annual Scuba
Divers' Symposium in the Cayman Islands".
[0156] The database 316A in the example of FIG. 3B stores the
photographs and data/information associated with the photographs
(referred to herein after as `photograph data`) provided by the
users to the networking environment. Examples of photograph data
that are stored include but are not limited to the author of the
photograph, the content of the photograph, the day/time the
photograph was taken, saved, edited, and/or otherwise modified. The
pixel count and file type of the photograph. An example of
photograph data stored in the database 316A is shown in 316B. The
author of the photograph is "Anne Smith", and the contents of the
photograph include the "whale shark". The photograph was taken at
"3:25 PM on Apr. 5, 2005"; the pixel count of the photograph is
"6.7 MP" and the file type is ".TIFF".
[0157] FIG. 3C depicts a block diagram of a database for storing
popular searches 322, a database for storing popular tags 324, a
database for storing popular nets 326A, and a database for storing
user nets 326B, according to one embodiment.
[0158] The database 322 stores a list of popular searches that
occurred on the networking environment. The popular searches can be
determined based on the total number of searches that occurred for
the keyword over a predetermined amount of time. Similarly, the
popular searches can be determined based on the rate of increase in
the number of searches for a particular keyword over a
predetermined amount of time. In some embodiments, the searches for
the same keyword that originate from the same user, IP address, or
machine ID, for example, are factored in and not counted towards
the tally towards determining popularity of a search term. In the
example database 322 of FIG. 3C, the identified popular searches
include the keywords "iPhone", "Apple", "Iraq", "Presidential
campaign", "Interest rate", "Subprime", "Italy", and "Spanish
Wine".
[0159] The database 324 stores a list of popular tags on the
networking environment. The tags can, in some embodiments, be
identified from items (e.g., web content, email, web objects,
photographs, contacts, calendar events, etc.) provided by users in
the networking environment. For example, an item can be tagged with
keywords added by a user to the networking environment and/or be
tagged automatically by the system based on a set of
metadata/meta-tags associated with the item. In addition, the item
may be tagged by the third-party provider of the item. In some
embodiments, the meta-tags include semantic tags. Thus, items
having topically similar and/or related content can be identified
in the networking environment items database and counted towards
identifying the popular tags.
[0160] Additionally, tags indicating similar and/or related
keywords and tags can be identified in user information databases
in determining the popular tags on the networking environment.
Additional methods and/or algorithms for identifying popular tags
are contemplated and expected and do not deviate from the novel art
of this disclosure. In the example database 324 of FIG. 3C, the
identified popular tags include "Web 3.0", "India", "New York
Times", "Hillary Clinton", "Semantic Web", "Terrorism", "Travel",
"Wine", "Web 2.0", "Xbox 360", "iPhone", "Foreclosure", and
"Interest rates".
[0161] The database 326A stores a list of popular nets on the
networking environment. In the example database 326A of FIG. 3C,
the identified popular nets stored in database 326A include
"Fishing", "India", "Web 2.0", "Wine", "Real Estate", and "Scuba
Diving". In one embodiment, each net that is identified as popular
in the database 326A is an individual net and determined as
`popular` based on the number of members in the net. Alternatively,
the popularity can be determined by the total number of views of
the net over a predetermined amount of time, regardless of whether
the net was viewed by a registered user or a visitor. The
popularity can also be determined by the rate of increase of views
over a predetermined amount of time. In some embodiments, the
popularity is determined by the total number of views of the net
generated by users who are not members of the net.
[0162] In some embodiments, the views generated by the same user in
a net do not count towards the number of views that determine
popularity of a net. In one embodiment, each identified popular net
includes a plurality of nets that relate to a similar topic. For
example, the popular net "India" may include the nets having topics
similar to but is not limited to the "Taj Mahal", "tombstones",
"Bangalore", "Bombay", "authentic curry", etc. Since in some
embodiments, the contents of the nets have semantic meta-tags,
other related content (e.g., similar and/or related content on
other nets) shared on the networking environment are identified and
a set of popular nets having similar and/or related content can be
determined.
[0163] The database 326B stores the user nets and data/information
associated with the user nets (hereinafter referred to as `user net
data`). The user net data stored in the database 326B can include,
for example, but is not limited to, the user(s) who created the
net, the contents of the net, items posted in the net, the number
of items posted in the net, the number of members in the net, the
number of guest visitors in the net, the number of views,
promotional items, semantic tags and/or keywords, related nets,
and/or related items.
[0164] One or more users can create a net, for example, to
facilitate information/knowledge sharing and/or to provide
centralized access to a set of data/information. In addition, since
in some embodiments, semantic meta-data tagging enables similar
and/or related data/information to be identified on the networking
environment, nets can be created by a user to add information and
to identify additional related information provided by other users
through items added by the other users and/or the nets created by
the other users. The additional items and nets of other users can
be stored in the database 326B such that when the net is accessed
by a user, the user is apprised of related or similar items and
nets that may be of interest to the user. The items in a net may or
may not have a common theme or topic of interest. Thus, the
identified contents of the net, either based on keyword matches,
semantic matches, as identified automatically, by the user, and/or
by the third party content provider, can be stored in the database
326B. In one embodiment, a list of promotion items provided in the
net is stored in the database 326B. A promotional item can be a
third party advertisement or other types of endorsements for a
product and/or service added to the net by a user or members of the
net.
[0165] An example of user net data stored in the database 326B is
shown in 326C. The user that created the net "Tourism in India" has
a user name of "iLoVEtraVel2007", and the contents of the net
include "Indian food", "Indian culture", "Taj Mahal", "Agra",
"Bangalore", and "Delhi". The items posted on the net include
"Emails about itinerary", "scheduled meetings", "hotel
reservations", and "car reservations", "web content about scenic
spots in India", and "Notes about plans in India and soliciting
advise/comments about India Travels".
[0166] The number of items posted in the net is `15`, the number of
members of the net is `3`, the number of guests to the net is `8`,
and the number of views of the net is `35`. The promotional items
in the net include "3 days/4 nights road trip special from
Bangalore to Agra", and "Discount tickets to the Taj Mahal". The
semantic tags/keywords determined in the items included in the net
include "tombstones", "Taj Mahal", "Agra", "deserts", Ministry of
Tourism", "visa", "yoga", "IIT Kanpur", "Monsoon", and "Goa". Nets
related to "Tourism in India" include "Beautiful Taj Mahal",
"Bombay", "Curry!", and "Safaris".
[0167] FIG. 3D depicts a block diagram of a database for storing
ontologies 342A and a database for storing promotional content
sponsorship information 344A, according to one embodiment.
[0168] The database 342A stores the ontologies available in the
networking environment. The ontologies can be provided and
integrated by administrators of the networking environment. In
addition, ontologies can be requested by a user to be added into
the platform, or added to the platform by a user. In the example
database 342A of FIG. 3D, the currently available ontologies
include the ontologies for "Web 2.0", "Oceanography", "Enology",
"cosmology", "Biomedical Ontology", "Proteomics", "Clothing",
"Internet", "Electronics", "Real estate", "Agricultural", "Beer",
and "Investment". An example of a portion of the enology ontology
stored in the database 342A is shown in 342B. The enology ontology
includes a list of the different types of barrels ("Oak" (e.g.,
French oak and American oak), "Stainless Steel", different types of
wines ("White wine (e.g., Chardonnay and Sauvignon Blanc), "Red
wine" (e.g., Cabernet Sauvignon, Burgundy, Bordeaux, and Pinot
Noir), "Champagne"), and the different steps involved in wine
making ("harvesting", "destemming", "crushing", "fermentation",
"barreling", and "bottling").
[0169] The database 344A stores a list of sponsors and
data/information associated with the sponsors (referred to
hereinafter as `sponsor data`). As discussed, the web content added
by users to the networking environment can sometimes include
promotional content that promotes one or more of an idea, product,
and/or service. Similarly, the content provider can be a service
subscriber of the networking environment services and shares items
having promotional content on the network to increase exposure and
access of the promotional content to users of the networking
environment.
[0170] In some embodiments, the content provider can become a
sponsor, such that when web content provided by the content
provider is added to the networking environment (e.g., either by
the third-party content provider and/or another user), the content
provider can have access to additional services, in particular,
marketing services and access to market-related data relevant to
the ideal/product/service the content provider wishes to promote.
In some instances, the sponsor is not necessarily the content
provider of the web content but merely an entity with vested
interest in the promotional material in the web content. In some
embodiments, membership fees are assessed in association with
sponsorship of promotional content in the networking environment.
The assessment of membership fees and the additional
functions/services provided in association with promotional content
are described in more detail in the description of FIG. 9.
[0171] The sponsor data stored in the database can include but is
not limited to, the company making the sponsorship, the
advertisements that are being sponsored by the company, the payment
method, the fee structure adopted by the sponsor, the survey
questions the sponsor wishes to be presented to users, the
promotional features included in the membership, and the semantic
tags/keywords related to the sponsorship, business, trade, service
and/or product.
[0172] An example of a portion of the sponsorship data stored in
the database 344A is shown in 344B. The sponsor "Vino Discounters"
sponsors "all advertisements from Vino Discounters" on behalf of
the company "Vino Discounters Co.". The sponsor has signed up for
the additional services to "pay for keyword placement", "pay for
semantic keyword placement", "pay for targeted advertisement", and
"pay for track advertisement distribution" and the payments are to
be remitted via "Automatic debit".
[0173] The survey questions to be presented to a user whom has
indicated interest in a sponsored advertisement include "where do
you purchase wine and wine related apparatus". The promotional
features included in the sponsorship of "Vino Discounters" include
"cross-link to related products/services", "distribute
advertisements to members of specific mailing lists", and
"personalize advertisement content". The semantic tags/keywords
associated with content provided by the sponsor include "wine",
"wine bottles", "wine opener", "storage", "pairings", "decant",
"age", "Zinfandel", "reservatol", "heart disease", "liver disease",
"grapes", "tastings", "nose", and "Brut".
[0174] More or less databases may be included. The databases can
store other types of information, including but not limited to,
information, data, services pertaining to knowledge/information
sharing, and user friendliness, and/or additional information
related to tracking and monitoring propagation of web content and
information among the users in the networking environment.
Additional data types that can be stored in databases, such as data
related to delivering the services, functions, and features of a
web-based networking environment to providing advanced services to
entities utilizing the knowledge networking environment to
intelligently share and search for knowledge and intellectual
content, among participating users, are contemplated and expected,
and do not deviate from the novel art of this disclosure.
[0175] In some embodiments, one or more databases can be
implemented as one database and different types of information can
be stored in combination rather than in separation as shown in the
example databases of FIGS. 3A-3D.
[0176] FIG. 4A illustrates a screenshot 400 of a login screen to
access the knowledge networking environment, according to one
embodiment.
[0177] In the example of FIG. 4A, the platform utilizes a
username/email and password identification method for authorizing
access. The screen in the example screenshot collects data to
determine if the user is authorized to access the system and if so,
securely logs the user into the system. In other embodiments, other
forms of identity authentication, include but is not limited to,
security cards, digital certificates, biometric identifiers (e.g.,
fingerprints, retinal scans, facial scans, DNA, etc.) can be
utilized and are contemplated and in accordance with this
disclosure. A user may be able to specify and/or obtain a logon ID
after subscribing or registering.
[0178] The user may be able to obtain a trial account, for a period
of time during which the user can access the networking environment
(with full or limited services) to determine if the user wishes to
obtain a full account. In addition, the user may be invited by a
registered user, for example, to join a common interest group
(e.g., net), and/or to access an object shared on the networking
environment, for example. A user with a guest account may have
access to limited features and services relative to a full account.
A subscription fee may be charged to service
subscribers/registrants on a one-time basis, a monthly basis, a
yearly basis, a usage basis, and/or other fee structures. In some
embodiments, visitors may be charged a fee for temporary access to
the features, services, and access to data shared on the networking
environment.
[0179] FIG. 4B illustrates an example screenshot 410 of a graphical
user interface for information and subscription management of a
user net.
[0180] The user interface for managing/updating information and
subscription management for a user net is shown in the example
screenshot 410 of FIG. 4B. The screen 410 allows the user to access
various functions and services related to user net management
provided by the networking environment. The screen in the example
includes an "About Me" section where the first ("John") and last
name ("Doe") of the user that is logged on is shown. The "About Me"
section of the screen also includes a list of the user's contacts
on the networking environment. In one embodiment, the screen 410
includes a listing of the groups to which the user belongs to
(e.g., "Photography", "Knowledge Base", and "Alpha Tester
Information").
[0181] In one embodiment, items (e.g., web content, web objects)
can be added to the net by sending an email having the items to a
predetermined email address. For example, the email can include an
attachment of a photograph to be added to the net. In addition, the
email can include, but is not limited to, a note, a calendar event,
a link, and/or any other web content to be added to the net,
uniquely identified by the email address to which the email is sent
to. In the example shown, content can be added to the user's (John
Doe's) net via sending an email to "john@users.add.com" Therefore,
the user ("John Doe") can provide this email to friends, other
service subscribers, non service subscribers such that they can add
items to the user's net. In some embodiments, an authentication and
validation procedure is performed by the sender to verify whether
the user has authorized the email sender to add items to the user
net. For example, the user can have a list of valid sender email
addresses from which to accept items. In other embodiments, no
verification is performed, so long as a valid email recipient
address is indicated, or some other suitable condition is met.
[0182] The example user interface 410 for managing/updating
information and subscription management for a user net includes a
frame 402 that identifies and lists (e.g., in a word cloud) the top
types of web content in the user net, in this example, the net
managed by John Doe. The top types of web content in this example
are indicated to be notes, people, and web pages. The top types of
web content can be determined based on the number of items the user
has in each category. In some embodiments, the top types of web
content can be determined based on the number of views that each
category of web content has generated. In addition, the top types
of web content can depend on the number of users that have
bookmarked, shared, collected, or otherwise shown interest in the
items belonging to different categories. Other methods and/or
algorithms of determining the top types of web content in a net are
contemplated and do not deviate from the novel art of this
disclosure.
[0183] In one embodiment, the user interface 410 for
managing/updating information and subscription management for the
user net includes a frame 404 that depicts (e.g., in a word cloud)
the top tags of the net. The tags can be identified from the web
content in the net, provided by the creator of the net and/or other
users. The other users may or may not be registrants of the
web-based networking services. The tags can be keyword tags,
semantic tags or semantic links. The tags can be identified from
web content through one or more of many methods, some of which are
described herein as follows. Keyword tags can be manually added by
users that added the web content to the network. For example, the
user can highlight the text of the item, via one or more of any
known or convenient method to indicate the keywords to be
tagged.
[0184] The user can also type the keywords into a keyword field
that receives keywords associated with the web content that are to
be tagged. In addition to manual tags by users, the web content may
have associated with it, metadata that indicates keywords and/or
semantic tags and/or semantic links related to the item. The
metadata associated with the web content can be provided by the
content provider of the web content or any other entity. In one
embodiment, the networking environment performs automatic tagging
of keywords and/or semantic tags/links of items added to the
platform. The automatic tagging can be performed in addition to or
in lieu of manual tagging or through the metadata associated with
the item. Tagging functions are further discussed as it relates to
the tagging module in the description of FIG. 8.
[0185] Note that one or more icons shown in the example screenshots
400 and 410, and the screenshots illustrated in other figures in
this application, can and are expected to be linked to one or more
web pages with different screen layouts, depending on the services
selected. Additional screens with different screen layouts are
contemplated and considered to be in accordance with the techniques
and embodiments disclosed herein to provide the general
functionality and services related to knowledge networking and
collecting market-related data via knowledge networking.
[0186] FIG. 5 illustrates an example screenshot 500 of a graphical
user interface displaying relationships between a user and contacts
of the user in the knowledge networking environment, according to
one embodiment.
[0187] In the example screenshot 500 of FIG. 5, a web page for the
user ("John") to manage and/or to view his contacts is displayed.
The user, as shown, has two contacts (e.g., "Tom" and "Anne")
designated to have a collegial relationship with the user ("John").
In some embodiments, the user can have different contacts for
different nets that the user has created and/or manages. In this
example, the list of contacts for the net named ("My Net") is
illustrated. Additionally, different relationships between the user
and contacts are available, including but not limited to,
relatives, immediate family, friends, acquaintances, etc. In one
embodiment, the webpage for managing and/or viewing contacts
includes a search box where the user can submit text and/or
keywords to search for existing users on the user's contact
list.
[0188] In addition, the user interface of screenshot 500 can enable
the user to invite friends and/or acquaintances to join the
networking environment or to connect to existing friends and/or
acquaintances on the network. In one embodiment of the present
disclosure, the search box accepts email addresses of
friends/acquaintances that the user would like to send an
invitation to join the network or existing friends/acquaintances on
the network that they would like to add as a contact and connect
to. In some embodiments, the search box provides a basis for the
user to search for other users outside of the user's contact list,
by submitting text that wholly or partially matches the first
and/or last names of the other users. In addition, keywords and/or
semantic tags can be submitted via the search box to identify other
users whose user profile/information contains the queried keywords
and/or semantic tags. Once a user not currently in the user's
("John's") contact list is identified via a search query, the user
can be added via the "Add Contacts" button. Depending on the
preferences of the user being added, a request can be sent to the
user, the user can be automatically added to the contact list or
the request may be immediately denied.
[0189] FIG. 6A illustrates an example screenshot 600 of a graphical
user interface for a user to access and manage various services
provided by the networking environment, including connections,
items, tags, and/or events, according to one embodiment.
[0190] In example screenshot 600, the user's home page where
content hosted by the networking environment is displayed. The home
page is, in one embodiment, a collective view of different types of
information the user has added to the networking environment. The
home page also provides access to popular tags and popular content
types identified by the networking environment. For example, the
home page for user "John" shows, the nets that John belongs to
(e.g., "Nets I Belong To"), the user's friends (e.g., "My
Friends"), relatives (e.g., "My Relatives"), colleagues (e.g., "My
Co-workers"), contacts (e.g., "My Contacts"), types of web content
(e.g., "note", "person", "web page"), latest items (e.g., "Beers
worth waiting . . . ", "Email item"), some popular tags identified
from the user's web contents (e.g., "champagne", "red", "tasting",
etc.), events, and/or photos. Additional or less categories can be
displayed on the home page. In some embodiments, the layout of the
homepage is user modifiable. For example, some categories can be
removed from the home page or shifted to a different location on
the home page.
[0191] Note that the entries and options associated with the
category boxes are, in some embodiments, hyperlinks. For example,
the text "Photography" under the category "Nets I belong to", when
clicked, opens up a user interface of the net "Photography".
Similarly, when the text "Email Item" under the category "Latest
Items" is clicked, an interface having the "Email Item" is opened
up. In addition to accessing existing content in the networking
environment via the home page, the home page can include hyperlinks
to allow users to add content. For example, a hyperlink for adding
contacts is included at the bottom of the category boxes, "My
Friends", "My Relatives", "My Co-workers", and "My Contacts". When
the "Add Contact" link is clicked, an interface is displayed for
example, to allow the interface to invite friends to join the
network and/or to connect to a friend/acquaintance already on the
network.
[0192] In one embodiment, the entries in the "Tags" category box
are also hyperlinks. When the hyperlinks in the "Tags" category box
(e.g., "champagne") are clicked on, the web contents in the
networking environment having the word "champagne" tagged are
presented. The web content presented may or may not be content
present in the user's net ("My Net"). Depending on the user's
setting and privacy settings of other nets, web content in other
user nets having the word "champagne" tagged can be displayed as
well.
[0193] FIG. 6B illustrates an example screenshot 610 of a graphical
user interface displaying third party web content hosted by the
networking environment, according to one embodiment.
[0194] The example screenshot of FIG. 6B illustrates an instance of
third party web content hosted by the networking environment
displayed on a web page. The web content ("Web Page: Company to
build solar thermal plant, raises $40M") shown in this example is
added by the user ("John") to the user net ("My Net"). The instance
of the web content includes a URL of the third party hosting the
content for a visitor to view the original document. In addition, a
description of the web content can also be shown. In some
embodiments, the description is specified by the user that added
the content. The description can in some instances, be an excerpt
or full text of the web content.
[0195] In one embodiment, tags can be identified (e.g., by the
system or by the user) from the text in the description of the web
content. The tags may be highlighted in the description and, in
addition, listed under the tags section (e.g., "Solar" and "Silicon
Valley"). Tags can be added by the user and/or visitors of the
user's net that views the web content by clicking on the hyperlink
"Add Tags" displayed on the web page. In addition, comments about
the web content can be added by the user and/or other users that
have viewed the web content. In some embodiments, a discussion
group about the web content can be facilitated through users and
visitors posting comments via this web page. Of course, the
visitors that are able to view and/or post comments can be
moderated by the creator of the net and/or the user that added the
web content.
[0196] In one embodiment, web content added to the networking
environment can be `collected` and `shared` by users that are
active in the network. The users may be visitors, trial service
subscribers, and/or service subscribers. For example, the user that
created the content in "My Net" may wish to share the web content
("Web Page: Company to build solar thermal plant, raises $40M")
with another net focused on alternative energy solutions. The web
content creator ("John") can share the content with another net by
clicking on the button "Collect and Share" 612. The button 612, in
one embodiment, allows the user to share the content with another
net and/or another user.
[0197] When the user selects to share the content with another net,
a user interface screen such as that shown in the example of FIG.
6C is displayed on the screen. FIG. 6C illustrates an example
screenshot 620 of a graphical user interface 622 for sharing the
web content shown in FIG. 6B with another net, according to one
embodiment. On interface screen 622, the user can select one or
more nets the user ("John") wishes to share the web content with.
In one embodiment, the user can add a comment with the shared web
content. Once the user submits the web content to be shared,
depending on the privacy and access rights of the selected net(s),
the web content may be automatically added to the destination net,
or the web content may be added upon approval by one or more
authorized moderators of the net.
[0198] Similarly, when the user selects to share the content with
another user, a user interface screen such as that shown in the
example of FIG. 6D is displayed on the screen. FIG. 6D illustrates
an example screenshot 630 of a graphical user interface 632 for
sharing the web content shown in FIG. 6B with another user,
according to one embodiment. On interface screen 632, the user can
select one or more contacts ("Tom", "Jerry", and "Anne") to share
the web content with. In one embodiment, the user can add a comment
with the shared web content. Once the user submits the web content
to be shared, depending on the privacy and access rights of the
selected recipient(s), the web content may be automatically shared
with the recipient, or the web content may be shared upon approval
by the recipient. After the user hits the "Share" button, the user
interface screens 622 and 632 disappear and the web content is
visible on the screen again.
[0199] In some embodiments, sharing of web content with nets and
users are initiated by visitors in addition to the creator of the
web content in the net. For example, a visitor, Jimmy, of the
John's user net ("My Net"), can share the web content added by John
on John's user net with other users and other nets. In addition to
sharing web content with another user, a visitor of the creator's
("John") net ("My Net") can collect the web content. The visitor
can collect web content, such that, for example, the web content
("Web Page: Company to build solar thermal plant, raises $40M") is
added to the visitor's user net.
[0200] In one embodiment, the button 612 "Collect and Share" is
utilized by visitors to add the web content of interest to the
visitor's own user net. In some embodiments, the original content
provider and the creator of the web content on the net where the
visitor is viewing the content impose limitation as to the degree
of sharing and collecting of items. These limitations can be
tracked and enforced by the networking environment.
[0201] FIG. 7A illustrates an example screenshot 700 of a graphical
user interface for viewing and managing web content 702, 704, 706
added to the networking environment, according to one
embodiment.
[0202] In some instances, the web content added to the network by a
user includes promotional content. In the example screenshot 700 of
a list of web content added by a user in the networking environment
includes an online news article 702, web content promoting
scuba/snorkeling fins 704, and web content promoting kid's swim
mask 706. In the web page for viewing and managing a user's web
content, additional items can be added by clicking on the "Add
Item" button. A listing of tags identified from the user's web
content may also be displayed on the viewing/managing screen 700.
The search field shown on the viewing/managing screen can be used
to locate web content in the user's one or more nets based on the
query. In some embodiments, the search is based on a semantic
search. In some instances, relevant web content added by other
users (keyword match and/or semantic link) can be identified and
listed in the search results in response to a query.
[0203] In one embodiment, the promotional content (e.g., content
704, 706) can be collected by other users, shared with nets and/or
other users in a manner similar to that illustrated in FIGS. 6C-D.
Promotional content can be bookmarked as well, although not
explicitly shown in the figures. Since the sharing and distribution
of web content, in particular, promotional content occurs in the
networking environment, the system has the ability to track the
access and distribution by users in the network, and in some
embodiments, collect data related to the access and distribution of
the web content among one or more users. In addition to identifying
and collecting access and distribution data of promotional content,
the networking platform can further identify information to
determine performance metrics of the promotional content.
[0204] For example, indications of performance include, but is not
limited to, clicks on the link to view a web site of the
third-party content provider, a purchase that results from a user
that adds the promotional content to the networking environment,
any transaction that results from a user adding the promotional
content, transactions resulting from a user sharing the content
with other users, number of views of the content via the networking
environment and/or via the third-party content provider's website,
identified interest in a second promotional content based on its
relation to a first promotional content, etc.
[0205] Oftentimes, the access and distribution data collected can
be valuable market information for the promoters. Thus, entities
may wish to sponsor promotional content. The sponsoring entity can
be the original host of the promotional content and/or a
third-party with vested interest in the promotional content. The
sponsorship can be applied to individual instances of web content,
or applied to a set of web content (e.g., Dell Computers may wish
to sponsor all web content having promotional material that
promotes items sold by or made by Dell Computers). Similarly,
Microsoft may wish to sponsor web content having promotional
material that promotes laptops and desktops made by Dell, in
addition to sponsoring web content having promotional content for
Microsoft products, since Microsoft may believe that sales of
computers typically lead to purchase of the Windows operating
system by the same customer. The concept of sponsoring promotional
content to further advance a vested interest in the promoted
material, further applies to but is not limited to, promotion of
services, ideas, concepts, religion, events, in addition to
products.
[0206] In one embodiment, the one or more sponsors of web content
having promotional content elect to pay to receive market data
collected by the networking environment deemed valuable. Different
fee structures are provided to tailor to the needs of different
types of businesses and different types of market needs, for
example. The sponsorship fee can enable a sponsor of web content,
to access raw data collected related to access and distribution of
the web content. Further, the sponsorship fee may allow the sponsor
to access statistical data compiled from the raw data. The sponsor
may also purchase information related to the performance of the
promotional content, as identified by, for example, but not limited
to, user interest level in the promotional content, actions
(clicks, views, purchases, sales, etc.) generated in response to
viewing the promotional content. The performance metrics can be
qualitative or quantitative. The sponsor may pay an extra fee for
quantitative data, another extra fee for further analysis of the
data, such as, but not limited to, statistical analysis.
[0207] In one embodiment, sponsors pay for obtaining relational
information between the user interest level/performance metrics of
the promotional content and user information. Obtaining user
information provides market information about the types of
attributes, qualities in an individual that are likely to indicate
interest in the promotional content. Sponsors can utilize this
information to identify a set of users towards which to target
promotional content. Sponsors can further utilize this data to
determine variations of the promotional content that may be of
interest to other groups of users. In some embodiments, sponsors
can pay for placement on a search result page when a relevant query
is made. Sponsors can also pay to have the promotional content
presented to have a likelihood of interest in the promotional
material. Both the push and pull advertising models can be used.
The pull model may cost the sponsor more. In addition, sponsors can
pay for being semantically linked to related and/or similar
products.
[0208] FIG. 7B illustrates an example screenshot 710 of an applet
712 for adding web content to the networking environment from the
original web page 714 hosting the web content, according to one
embodiment.
[0209] One embodiment of a process of adding web content to the
networking environment is to click the "Add Item" button on one or
more user interfaces of the networking environment, such as that
shown in FIG. 7A. Another example of a method for adding web
content to the networking environment occurs on the original web
page hosting the web content. As shown, in order to add the web
content shown in screenshot 710 to the networking environment, the
applet 712 can be initiated on the original web page 714. The
applet 712 is, in one embodiment, initiated via a java script
having a link that can be bookmarked. Thus, by clicking on the
bookmark while browsing the original web page hosting the web
content to be added to the networking environment, content can be
added without having to logon to the networking environment.
[0210] The applet 712 allows the user to identify the type of item
being added, the net to be added to, and enter descriptive
information (e.g., title, summary, tags, and/or comments) regarding
the web content. In some embodiments, the title, summary, and tags
are automatically determined by the applet; however, the user can
make modifications if so desired. The tags identified by the user
and/or the applet can be keyword based and or semantically
based.
[0211] FIG. 8 depicts a block diagram illustrating components of a
system for collecting market-related data through the web-based
networking environment, according to one embodiment.
[0212] In the example of FIG. 8, the host server 800 is one
embodiment of the system. The system includes a tracking module
802, a user module 804, a net management module 806 having an item
management module and/or a privacy management module, a
search/share module 807, a proximity module 808 having a semantic
social linking module, a knowledge management module 810, a
knowledge database 814, and/or a tagging module 812 having a
classification module. Additional or less modules can be included
without deviating from the novel art of this disclosure. In
addition, each module in the example of FIG. 8 can include any
number and combination of sub-modules, and systems, implemented
with any combination of hardware and/or software modules.
[0213] The host server 800, although illustrated as comprised of
distributed components (physically distributed and/or functionally
distributed), could be implemented as a collective element. In some
embodiments, some or all of the modules, and/or the functions
represented by each of the modules can be combined in any
convenient or known manner. Furthermore, the functions represented
by the modules can be implemented individually or in any
combination thereof, partially or wholly, in hardware, software, or
a combination of hardware and software.
[0214] The tracking module 802 can be any combination of software
agents and/or hardware modules able to track user activity related
to web content added to the networking environment (e.g., knowledge
networking environment). For example, the tracking module 802
records the instances when web content added to the networking
environment is viewed, who viewed the web content, and the time and
date the content is viewed. The data can be stored in the system
for a predetermined amount of time, as suitable. The tracking
module may also record the instances when the web content is
bookmarked, collected, shared with another user and/or net, and who
bookmarks, collects, and/or shares the content. The recipient and
the net receiving the web content can also be recorded. In some
instances, the tracking module also records different users add the
same content to the networking environment, since identical web
content added by different users can be an indication of
interest.
[0215] In one embodiment, the tracking module 802 determines when a
user views a third-party web page in response to viewing web
content in the networking environment. The tracking module can also
record when additional actions (e.g., purchase, sale, lease, rent,
bid, ask a questions, post a comment, send a message, send an
email, etc.) occur in response to viewing web content, in
particular, web content having promotional content. In most
instances, the identities of the parties involved in the action are
recorded. In some embodiments, the tracking module 802 collects
numerical data regarding content access/distribution and performs
elementary statistical analysis on the data collected. In some
embodiments, elementary statistical analysis and/or additional data
analysis methods are performed in a market data module (not
shown).
[0216] For example, the tracking module 802 can record the number
and percentage of visitors that collected the web content, visitors
that collected the web content then shared the web content,
visitors who made a purchase based on the web content. The tracking
module 802 may also record the average number of subsequent shares
per user that has viewed the web content, the average number of
visits to the web content before collecting it. In one embodiment,
the tracking module 802 determines when a user collects web
content, the average number of repeat visits to web content per
user prior to collecting the web content. The total number of users
that the web content has spread to can be determined by the
tracking module 802. In addition, the velocity and/or the
acceleration of the spread of the web content can be determined and
recorded.
[0217] In one embodiment, the tracking module 802 determines the
total volume of collections, shares, bookmarks, shares, purchases
for web content over a predetermined amount of time. For example,
the daily volume of the total number of users that collected an
advertisement for the iPhone can be determined and stored. In one
embodiment, the tracking module 802 can determine which users are
the top spreaders of the web content. In some embodiments, the
tracking module 802 distinguishes between a visitor who is not a
subscriber and a visitor who is a subscriber and records the
subscription status of a user who accessed and/or distributed web
content.
[0218] The user module 804 can be any combination of software
agents and/or hardware modules able to identify user metadata from
a set of user information. The user information can be supplied by
the user and/or identified by the networking environment. For
example, the user information can include basic profile information
submitted by the user during registration, such as a first and last
name, birth date, location, etc. In addition, the user may have the
option of submitting additional information including but is not
limited to, nationality, religion, ethnicity, interests, hobbies,
occupation, education, etc. as described in detail in FIG. 3A. User
information can also be identified based on user activity on the
networking environment.
[0219] For example, general interest can be identified from common
topics or themes in the content added by a user to the networking
environment. Similarly, general interest can be determined based on
commonalities between the user and the user's contacts and/or
connections on the networking environment. In one embodiment, user
information can be deduced from visits to other users' nets and
views of content provided by other users. Additionally, web content
collected and/or bookmarked by the user provides additional
information about the user. The type of the web content (e.g., a
web page, an email, a photograph, etc.) in addition to the
intellectual content of the web content (e.g., the subject matter
of an online news paper article) can both be utilized to obtain
user information.
[0220] In some embodiments, the user module 804 communicates or
otherwise shares information with the tracking module 802 such that
access/distribution data can be associated with user data about the
users involved in the access and distribution of web content. For
example, demographic, geographic, and/or psychographic analysis can
be performed on the data collected in relation to access and
distribution of web content, in particular, promotional content.
Alternatively, the data identified and stored by the tracking
module 802 and the user module 804 can be stored in a common data
depository (e.g., on the tracking module, on the user modules, or
external to the tracking and user modules) such that data recorded
by the tracking and user modules can be retrieved independently or
in conjunction, as necessary.
[0221] The net management module 806 can be any combination of
software agents and/or hardware modules able to provide the
services related to management of nets. The management of nets
include those related to, but is not limited to, setting up the
parameters for net creation, as specified by, for example, a net
creator (e.g., administrative user), managing membership requests
of the net, and/or privacy rights of various objects (e.g., items)
in the net. Generally, nets are created to store intellectual
information and/or knowledge in various digital formats for an
individual, group, team, and/or community. Web-based items in
addition to users, user profiles and/or user contact information
can be associated with a net. In most instances, the net is a
web-space for an individual or group to manage and organize
collective knowledge having dispersed or similar topics, and to
share/collect information from other members of the net.
[0222] Objects can be added by the net creator to the net. Other
users, such as members and/or visitors can, in some situations, be
allowed to contribute to the intellectual content of the net. For
example, for a particular net, content added may be required by net
administrators to be related to one or more specific topics. The
net may also limit who can contribute content to the net. Objects
can be added to nets in a variety of ways. For example, users can
upload existing files from their devices (e.g., cell phone,
portable device, computer, desktop, laptop, Blackberry, iPod,
iPhone, etc.) to one or more nets. In particular, various types of
files, including but are not limited to, documents, .pdfs, text
files, video files, email messages, image files, audio files, of
varying formats can be uploaded to knowledge networking
environment. An URL can be submitted to add web-content hosted by a
third-party content provider to the net. In addition, intellectual
content can be created in the knowledge networking environment. For
example, a note can be composed in an interface provided by the
networking environment and submitted to be posted in one or more
nets.
[0223] In one embodiment, objects (e.g., files, documents, RSS,
contact records, video, image, and/or audio files) are added to a
particular net via attaching the objects to an email and sending
the email to an email address unique to the particular net. In some
embodiments, a net be associated with different email addresses to
be used when posting objects with different privacy settings. For
example, addresses such as "owner.twineDogLovers.com",
"members.twineDogLovers.com", and/or "public.twineDogLovers.com"
can be used to post objects to the net "DogLovers" but with three
different levels of privacy access settings.
[0224] A diagrammatic representation of nets in a web-space and
objects in a net is shown with further reference to FIG. 8B. The
connections between objects within and across nets represent
relationships that are explicit and/or implicit. The tables of FIG.
8E depict example lists of various explicit relationships and
implicit relationships that can be specified and/or identified in
the knowledge networking environment.
[0225] When a net is created, the net management module 806 can
query the creator user (e.g., administrative user) whether the net
is to be a personal net, a group net, or a public net. Typically,
objects added to a net of designated type personal net are private
and only visible to the creator user. Of course, this setting is
modifiable by the creator to allow certain other users to view a
sub-set of content in the net. The creator, in some instances,
designates other users/members of the net to have administrative
rights. Similarly, objects added to a net that is designed as a
group net (or shared net) are typically visible to the members of
the net. Objects added to a net that is designed as a public net
are typically visible to the public. For example, contents in a
public net can, in addition to being visible to members of the net,
are visible to visitors of the net, and/or visitors of the
knowledge networking environment. In some embodiments, objects in
the pubic net are identifiable via a publicly accessible search
engine (e.g., Google, Yahoo, and/or MSN, etc.).
[0226] Levels of privacy settings related to access and viewing of
objects in nets are contemplated beyond that described for private,
group, and public. For example, a net can have a customizable
privacy level as specified by the net creator and/or other users
with administrative rights. In one embodiment, a net can have
content with different privacy settings, as depicted
diagrammatically with reference to FIG. 8C. For example, the net
creator and/or other administrative users can specify the objects
that are of a particular privacy access level, based on
predetermined criteria. In addition, the user that added the object
to the net is typically able to set the privacy settings associated
with the added object.
[0227] A user and/or a group of users can create multiple nets in
the knowledge networking environment. In some situations, multiple
nets can be created by a particular user, where the multiple nets
have different privacy settings, respectively. In one embodiment,
the net management module 806 manages the different nets can be
created by a particular user with different privacy settings. In
some embodiments, the net management module 806 includes a privacy
management module to track the privacy settings of the nets and the
privacy settings of individual objects (items) in a net.
[0228] In some embodiments, a net in the context of the knowledge
networking environment is referred to herein as a "Twine". A
"Twine" is considered to be synonymous in meaning with what is
referred to herein in this disclosure as a `net` and is also
associated with all and/or additional the functions performed and
services offered by a net, in accordance with at least the
embodiments described throughout the present disclosure.
[0229] The item management module can be any combination of
software agents and/or hardware modules able to track any activity
or the lack of, related to web content that has been added to the
networking environment. The item management module can manage
objects (e.g., web content) added to the networking environment and
delete objects in response to receiving a request from a user with
rights to delete the objects.
[0230] In one embodiment, the item management module identifies a
number of rules associated with privacy and/or access rights of the
object. For example, a user can specify a set of relational
attributes when adding content to the networking environment.
Relational attributes can include, for example, who can see the
content, the users that can see the content, or a particular group
of users that can see the content. In some embodiments, a set of
users with a predetermined relationship (e.g., family) of the user
can view the content. In addition, relational attributes can
further include who can edit the content, share the content,
collect the content, and/or bookmark the content. Similar to
content viewing rights, edit, commenting, asking a question,
sharing, collecting, bookmarking rights can be specified by
default, on an individual basis, on a relationship basis, or on a
group basis (e.g., only users who are subscribers can edit the
content).
[0231] In one embodiment, the item management module identifies the
preferences of a content provider associated with accessibility of
the web content when the content provider is a third-party host of
the web content. The preferences can be determined from metadata
associated with the web content. For example, the third-party host
may not permit edits/modifications to be made to the web content.
In addition, the third-party host may limit the number of shares
that can be made on the networking environment. Thus, in one
embodiment, the item management module determines a set of rules
governing accessibility of the web content based on the relational
attributes specifiable by the user who adds the web content and the
preferences of the third-party host of the web content, when
applicable. When users share and distribute web content in the
networking environment, the item management module enforces the set
of rules.
[0232] The search/share module 807 can be any combination of
software agents and/or hardware modules able to facilitate
intelligent searching and sharing of objects, nets, contacts among
users in the knowledge networking platform. Since relationships
between objects (e.g., users, user profiles, items, contact
information, nets) in the web-space associated with the networking
platform are known and/or otherwise identifiable, advanced search
functionalities can thus be provided in the knowledge networking
environment. For example, since content is typically associated
with users (e.g., by virtue of the content being added by users,
content having commented on by users, and/or content having been
edited by users) a search parameter can allow a search user to
specify the degree of separation within which to perform the search
query. For example, a user may wish to see content related to
`scuba diving` associated with (e.g., posted by, commented by,
moderated by, edited by, tagged by, rated by, and/or annotated by,
etc.) users and/or contacts that are within three degrees of
separation from the user.
[0233] In addition, the search parameter may allow the search user
to specify the types of relationships within which to conduct the
search. For example, a patent attorney may wish to see posted
content related to new rules published by the United States Patent
and Trademark Office that is associated with colleagues who are
patent attorneys from the same law firm as the search user, and/or
patent attorneys from a specified set of law firms. Further
variations of utilizing identifiable relationships (semantic
relationships, keyword relationships, etc.) between objects in the
web-space to provide users with the ability to specify a targeted
search scope are contemplated and considered to be within the scope
of this novel disclosure.
[0234] Some search parameters include, by way of example but not
limitation, search all available nets, search all content viewable
only to me in a net, search all content viewable by members in a
net, search content in a particular net, search all available nets,
search nets including those I don't belong to, search nets
associated with my connections, search nets associated with
friends, search nets associated with colleagues, etc. Further,
users can specify to search nets having tagged with specific tags
(e.g., dogs, scuba, sharks, etc.). In addition, multiple search
parameters are typically supported for further refining the search
scope to one or more different types of relationship. For example,
users can select to search and/or post to nets that are within a
specified social distance from the user. In a further example,
users can specify to search nets of first degree friends and are
members of the DogLover's Net and are friends of Joe.
[0235] Similar to searching, when posting and/or otherwise sharing
content, users can specify a targeted set of audience (e.g., users
and nets). Some post parameters include, by way of example but not
limitation, post to the user's net, post to the owner (or
administrators) of a net, post to members of a net, post to a net
but make viewable by public, post to second degree contacts that
are employed by a particular company, post to nets of friends, post
to nets of colleagues, post to nets that the user belongs to, post
to nets having a predetermined set of tags identified, etc.
[0236] In some embodiments, the search/share module 807 is further
able to provide educated recommendations to users, for example,
users that opt-in to receive recommendations from the system and/or
other users. In other words, the search/share module 807, in some
embodiments, provides push-model based sharing. Since the knowledge
networking environment, based on a user's profile, history,
objects, nets, friends, etc., can deduce types of content and/or
subject matter that the user is likely to be interested in, the
search/share module 807 can present a list of objects/items likely
to be of interest to the user.
[0237] In addition to user browsing history, recommendations can be
made based on search history and items/web-pages the user is
currently viewing. However, depending on the owner of the
recommended objects/items, the user may or may not have immediate
access. For example, item/object owners can specify to have objects
be partially visible (e.g., title, summary, and/or abstract) to
other users who do not have default access to the owner's items
(e.g., they are not connected, they are not related, they are not
friends, their social distance is not within a predetermined degree
of separation, etc.).
[0238] If the user determines, for example, based on the partial
visibility that the item is of interest, the search/share module
807, provides a pathway for the user to request the owner for
access to the particular item of interest. Upon receiving an
authorization from the owner, the search/share module 807 can
present the requested items to the user. In other embodiments,
recommended items are immediately available for access to the user
if the owner does not have restricted privacy settings. Note that
recommendations and sharing need not necessarily occur between
users that are connected in any specified manner, if at all.
Recommendations can be made by virtue of owners of items allowing
their items to be at least partially shared and recipients who opt
in to receive recommendations. In addition, sharing between users
not initially connected provides an avenue through which to meet
other users and/or to become connected in the network, for
example.
[0239] The proximity module 808 can be any combination of software
agents and/or hardware modules able to determine the social
distance between objects in the knowledge networking environment.
In general, social distance is proportional to the degrees of
separation that a user and/or item is from a user of interest. For
example, a first degree contact is a user that is directly
connected to the user of interest. A second degree contact is a
connection of a first degree contact of the user that is not
directly connected to the user. Since items in the knowledge
networking platform are linked to users (e.g., owners that added
(posted) an item, edited an item, commented on an item, tagged an
item, etc.), social distances can be determined between items and
other users.
[0240] Some examples relationships (e.g., social relationships,
semantic relationships, and/or social semantic relationships)
between objects, nets, and users are illustrated in the
diagrammatic representation of types of objects that can have
implicit and/or explicit relationships with other objects with
reference to FIGS. 8D-E. For example, with further reference to
FIG. 8D, users `John` and `Mary` can be socially connected by
virtue of having a predetermined social relationship with one
another (e.g., friends, family, colleagues, etc.), being directly
connected, and/or having a social connection within a predetermined
degree of separation away.
[0241] Further, the proximity module 808 is, in some embodiments,
able to track semantic relationships between objects. In one
embodiment, the proximity module identifies a semantic relationship
between a user profile and another user's object. For example, with
reference to FIG. 8D, user `John's` profile is identified to be
related to (link 852) an object of user Mary's. In most instances,
the identified relationships can be keyword based and/or semantics
based. Similarly, relationships between objects/nets of user
`John's` and objects/nets of user `Mary's` can be identified by the
proximity module 808 based on keyword matches and/or semantic
relationships. By identifying such relationships among the set of
objects and users in the knowledge networking environment, social
distances between objects and users can be determined.
[0242] Thus, in one embodiment, the proximity module 808
communicates with the search/share module 807 to facilitate in
performing searching and sharing functions to be carried out within
a particular social scope. For example, the proximity module 808
can provide a list of users that satisfy a set of search criteria
specified by a search user and the search/share module 807 performs
a search on nets and items associated with the list of users. The
search criteria, as detailed previously, can be a particular social
distance, a range of social distances, a particular type of
relationship, and/or a combination of any of the above. In some
embodiments, the functions represented by the proximity module 808
and the search/share module 807 are partially and/or wholly
combined and can be implemented with one or many modules.
[0243] In some embodiments, search results are provided to a search
user in a format that indicates the social distance of each search
result to the user, via a collaborative effort between the
search/share module 807 and the proximity module 808. In a further
embodiment, search results are ranked based on the degree of
separation between the search user and the items in the search
results. For example, in addition to keyword relevance and/or
semantic relation, ranking of search results can factor in social
distance.
[0244] In one embodiment, the proximity module includes the
semantic social linking module. The semantic social linking module
can be any combination of software agents and/or hardware modules
able to identify relationships between users based on
semantic/keyword relationships between items/nets associated with
the users. For example, with further reference to FIG. 8D,
connections 854-560 between objects and nets associated with users
`John` and `Mary` are connections that semantically socially link
`John` and `Mary`, if no prior explicit social
connections/relationships exist. FIG. 8E depicts tables
illustrating example lists of the types of explicit relationships
and implicit relationships that can exist among objects and/or
users in the knowledge networking environment, according to one
embodiment. In most instances, the explicit relationships are
identified based on user-triggered events whereas the implicit
relationships are identified based on links (e.g., social,
semantic, keyword, semantic social) determined by the knowledge
networking environment, as shown in FIG. 8E.
[0245] The knowledge management module 810 can be any combination
of software agents and/or hardware modules able to organize,
compile, assimilate, manage, and/or analyze information/knowledge
associated with the networking platform. The information/knowledge
can be those provided by users and/or a knowledge database (e.g.,
knowledge database 814) created by system administrators. For
example, the knowledge database can include, by way of example but
not limitation, sets of ontologies, taxonomies and/or folksonomies.
The knowledge database 814 in some instances, includes,
dictionaries, thesauruses, and/or encyclopedias, etc.
[0246] In some embodiments, the knowledge management module 810
compiles information gathered from the networking environment and
stores the information in the knowledge database 814 for future
reference and access. The information compiled can be based on user
behavior, information submitted by users, edits provided by users,
tags specified by users. For example, the knowledge management
module 810 can provide a channel for users to make a collection of
their top items considered by the users to be of general facility
and/or interest to other users. User's top items can be stored in
the knowledge database 814 to be provided to other users via a
recommendation or request.
[0247] In addition, the knowledge management module 810 can provide
a facility for users to post questions and to solicit answers from
other users. In some embodiments, a rating system is provided for
answers and the users that provide the answers for quality control
purposes. The questions and answers collected from users can
further enrich the contents of the knowledge database. For example,
when the same question is asked by another user, the knowledge
management module can retrieve the answers previously stored in the
knowledge management module 814. Similarly, other user oriented
services such as responses to offers and requests, products/service
listings, reviews of services and products, facts/statistical data,
FAQ's, How-to's, can be solicited among users and stored as general
knowledge in the knowledge database. Therefore, the knowledge
database 814 is thus update-able and adaptable, based on, for
example, knowledge acquired from user submission and/or from
identified user behavior.
[0248] The tagging module 812 can be any combination of software
agents and/or hardware modules able to identify one or more of
keywords, tags, meta-tags, semantic tags from user metadata, user
behavior on the networking environment, and/or metadata of web
content. Semantic tags can be identified based on one or more of
many methods. In one embodiment, tags are identified in content via
natural language processing (NLP). The natural language processing
method can detect nouns, proper nouns, verbs, subject, predicate,
object and/or other parts of speech as well as grammatical
expressions such as phrases and other constructions. For example,
proper nouns can be turned into tags. When the tags are clicked, a
query can be made to locate other web content and/or items with
that tag, and/or with any text that matches that tag.
[0249] In one embodiment, tags are identified via entity
extraction, by, for example, combining NLP and ontologies of
concept and rules. The combination of NLP and ontologies can detect
classes of concepts in intellectual content and semantically
classify the concepts as, one or more of but not limited to,
people, companies, places, addresses, phone numbers, general
concepts, or finer classifications of the above (e.g., products,
events, schools, celebrities, presidential candidates, etc.). New
objects against which objects are to be detected via entity
extraction can be regularly entered into the system. For example,
new objects can be created of types, person, organization, place,
and/or product, etc. In addition, new tags can be continuously
added based on identified user behavior, such as tags added,
edited, commented, connected, and/or annotated by users, etc.
Therefore, in one embodiment, content in the knowledge networking
environment is re-analyzed by the tagging module 812 to update
existing tags and/or to identify new tags.
[0250] For example, tags with errors can be updated and tags
previously not identified can now be tagged. The re-analyzing can
occur at predetermined intervals. In some embodiments, the
reanalysis can take place automatically when a predetermined amount
of new objects and/or tags have been updated in the system.
Further, the re-analysis can be manually triggered. For example,
when a user adds a new organization object ("Stanford University")
into the knowledge networking environment, existing content that
references "Stanford University" is identified and tagged.
[0251] In one embodiment, tags are identified via a Bayesian
classification process thus enabling identification of one or more
subject matter/concepts the web content and/or an item encompasses.
In some instances, the subject matter can be identified even when
the subject matter is not explicitly mentioned in the web content.
For example an article describing process and procedure through
which the Declaration of Independence was drafted can be identified
as being related to "politics" and "history" and tagged as such,
even though neither the words "politics" nor "history" were
necessarily explicitly stated in the article. In one embodiment,
subject matter can be identified based on Bayesian statistical
techniques and performing machine learning to analyze a knowledge
(information) database with a predetermined structure (e.g.,
including for example, encyclopedias, dictionaries, thesaurus, such
as, but is not limited to, the Wikipedia, encyclopedia.com,
Britannica com, MSN Encarta, dictionary.com, thesaurus.com,
techweb.com, etc.).
[0252] For example, the Wikipedia contains approximately 300,000
declared subject categories, which are specially named pages in
Wikipedia. Other pages in the Wikipedia that represent the content
or articles of Wikipedia are linked to the subject category pages
for the subjects they are relevant to. In one embodiment,
classified articles in Wikipedia having a particular subject matter
(e.g., "history") in the Wikipedia are utilized as "training
inputs" for the Bayesian classification process. Machine learning
can then be performed on the classified articles of the knowledge
(information) database to determine a set of statistical
classification rules for identifying content that is an indication
of the particular subject matter (e.g., "history"). The amount of
"training inputs" can be adjusted, in one embodiment, as suitable
to the application.
[0253] When a suitable amount of "training data" is provided for a
particular subject matter (e.g., "history"), an estimated
probability that an object having text is about the subject matter
(e.g., "history") can be provided via the Bayesian classification
process. In most instances, the accuracy and precision of estimated
probability that a set of content is about the particular subject
matter, increases with the quantity of "training data" provided
during the machine learning process. The same procedure can be
applied to additional subject matter and/or concepts.
[0254] In one embodiment, the classification process is performed
in a hierarchical manner, since, for example, the structure of the
original database for which a statistical model is built is also
hierarchical. For example, a set of content can initially be
analyzed to determine if it is about a particular subject matter
("history"). Then, the content can be analyzed to determine if it
is about a child-subject matter ("history of America") of the
subject matter ("history"). If the content is about the "history of
America", then the content can further be analyzed to determine if
subject matter further relates to a child-subject matter (e.g.,
"Declaration of Independence") of the "history of America", and so
on and so forth to further narrow and precisely identify one or
more subject matter.
[0255] In one embodiment, tags are identified via comparing textual
data in the network platform (e.g., text that occurs in emails,
notes, added web content, photographs, user profile, user metadata,
etc.) to text that occurs in other content on the networking
environment. For example, if an article includes one or more
references to "Super Solar", and additional content on the network
is identified to have one or more references to "Super Solar", then
the term "Super Solar" can be an identified tag. When the term
"Super Solar" is again detected in other content, the term "Super
Solar" can be tagged in the other content. Thus, in one embodiment,
significant phrases can be determined via detecting presence of the
phrases in one or more contents (e.g., items, objects, web content,
notes, photographs, emails, etc.) in the networking environment. In
some instances, for example, even when the phrases are not
identifiable by NLP, entity extraction, Bayesian classification
and/or explicit links,
[0256] In one embodiment, tags are identified via determining and
analyzing distribution of nouns and phrases that occur in the
content in the networking environment over time and user metadata.
For example, nouns and phrases that are frequently used may be
identified as tags when they are mentioned. In some embodiments,
additional filters may be necessary to screen out noise expressions
to further hone in on the nouns and phrases representative of
topics rather than common expressions or words.
[0257] In some embodiments, tags can be stored as strings or
semantic objects. For example, tags can be created as semantic
objects upon detection. Alternatively, in some embodiments, tags
are created as text-based objects and converted to a semantic
object, on an as-needed basis, for example. In one embodiment, the
tagging module 812 converts string-based tags into semantic tags.
For example, tags can be converted into semantic objects when a
user wishes to edit the tags. Editing can include reporting tags
that are incorrect, annotating tags with a comment, linking tags,
defining tags, and/or rating tags, etc. In a further example, when
a user elects to assign a broader and/or narrower tag to an
existing string-based tag, the string-based tag can be converted to
a semantic object. In addition, the broader and/or narrower tags
can also be converted to semantic objects if they are initially
string-based. In one embodiment, records of tag edits and/or tag
creations by users are stored and/or analyzed. Records may include
who performed the edit and/or when a tag was edited, in addition to
the edits made to the tag.
[0258] By observing user tagging activities (e.g., editing, adding,
commenting, removing, etc.), the knowledge networking environment
can refine and, in some instances, adapt its tagging process. For
example, new auto-tagging rules may be acquired as the system
identifies tags previously not automatically detected but are
manually added by a number of users. In addition, the system can
learn, from user tags, the categories of tags. For example, if a
user adds a tag "TechCrunch40" as a tag in a new type "Conferences"
for that tag, the system can create a new category "Conferences"
with the term "TechCrunch40" as a conference. In addition, if
another user now tags the "Paris Convention" as of a tag category
conference, both terms "TechCrunch40" and "Paris Convention" will
be identified as tags having a category of type conference when
identified in other articles/documents.
[0259] In one embodiment, string-based tags are converted to
semantic objects when tags are mined from an existing knowledge
database with a predetermined structure (e.g., imported ontologies,
taxonomies, etc.). Since the imported ontologies and/or taxonomies
are structured and cannot be attached to string-based tags, the
tags are converted to semantic objects to mirror the structure of
the particular ontology or taxonomy. In some embodiments, a
tag-prefix indicating the category of the tag is represented as a
semantic tag. Alternatively, a tag-prefix indicating the category
of a tag can be string-based.
[0260] Semantic representations of tags allow tags to be linked to
other tags via links identified via taxonomic relationships,
including, but is not limited to, "has narrower tag", "has broader
tag", "has synonymous tag", "has antonym tag", etc. Therefore, the
relations between tags can be search such that, for example, when a
user searches for items tagged with "science", items tagged with
narrower tags related to science as well, such as things tagged
with physics, biology, chemistry, etc. For example, a user may
select to see items having the tag "physics". The knowledge
networking environment can additionally present the user with
options to "view items with broader tags" and/or "view items with
narrower tags", for example. Once selected, items with narrow tags
or broader tags can be presented to the user. In addition, the user
can select to view items with further narrower and/or broader
tags.
[0261] The host server 800 represents any one or a portion of the
functions described for the modules. More or less functions can be
included, in whole or in part, without deviating from the novel art
of the disclosure.
[0262] FIG. 9 depicts a flow diagram illustrating a process of
hosting web content on the knowledge networking environment at the
request of a service subscriber, according to one embodiment.
[0263] In process 902, a request from a service subscriber to host
web content provided by a content provider is received. The request
can be received via an upload request placed by the service
subscriber through an upload interface of the networking
environment. For example, an item (e.g., web content) can be added
by clicking the `Add Item` button of the "Items" of a user net
shown in the screenshots of FIGS. 4-7. Lists of basic item types
that can be added, in most instances, are displayed on the "Items"
page when a request to add an item is received. A few examples of
the item types include notes, photography, emails, web pages,
contacts, etc. When an item of the "note" type is received, for
example, an editable form for adding a new note is to be filled
out. Once a completed form is submitted, the content can be
analyzed and tagged. The analysis can be based on keyword matching.
In one embodiment, semantic tags can be identified based on one or
more of many methods, as described in detail in the description of
the tagging module in FIG. 8.
[0264] In one embodiment, a request to host web content is received
via a command initiated from the web page hosting the web content.
For example, a java script link can be bookmarked and initiated
when a user wishes to add content to the networking environment.
When the JavaScript is initiated, an applet appears on the host web
page originally hosting the content. The applet allows the user to
enter basic information about the web content. For example, as
shown in the screenshot of FIG. 7B, the type of the item can be
specified, a thumbnail image of the web content can be selected
from a set of pre-selected images. The net to which the content can
be added is selected in the "Add to" field, for example. In some
embodiments, the user has the option of adding the content to a
friend or contact's net.
[0265] In process 904, the metadata of the web content is
identified. The metadata includes information about the web
content. The metadata can be machine-readable and/or
human-readable, including structural/control metadata that
describes the structure of data such as tables, columns, and/or
indexes. For example, relational database metadata include tables
indicating the names, sizes, and number of rows of the tables in a
database. Relational database metadata may further include tables
of columns in the database, what tables the columns are used in,
and the types of data stored in the columns. Metadata such as, file
system metadata, data warehouse metadata, file system metadata,
image metadata, program metadata, can be identified. Metadata can
also include guide metadata, for example, to assist humans in
identifying specific items such as a set of keywords.
[0266] In some embodiments, an item of the metadata is described by
metadata. For example, metadata of the web content can include but
is not limited to, data about the size of the content, date/time
the content was created and/or modified, the author/origin of the
content, privacy/access attributes of the content, type of objects
in the content, and/or a title of the content. Thus, in process
906, preferences of the content provider associated with
accessibility of the web content are identified. For example, the
content provider can specify different access attributes related to
whom and/or under what circumstances may edit the web content. The
content provider can also specify what aspects of the content can
be deleted, edited, and/or otherwise modified. In some embodiments,
the metadata of the web content indicates the extent to which the
web content can be shared. For example, if the content can be
bookmarked, collected, shared, and with whom the item is to be
shared and to what extent.
[0267] In addition, digital library metadata of the web content can
include descriptive information about the intellectual content of
the web content, including semantic metadata. Thus, in one
embodiment, the applet through which web content can be added to
the networking environment without leaving the original web site
hosting the web content, determines a suitable title for the web
content based on its identified contents. In some instances, the
user can specify the title for which the web content is to be given
on the networking environment via the applet. The applet can also
identify a suitable summary for the web content based on its
identified content. Alternatively, the summary can be user
specifiable. As shown in the example screenshot of FIG. 7B, the
applet can identify tags associated with the web content. Tags and
comments can also be specified by users on the applet to be made
available on the networking environment.
[0268] In process 908, the service subscriber is inquired. The
service subscriber can be presented with a set of questions when
the service subscriber requests to add web content to the
networking environment. The questions asked can be a default set of
questions presented to every service subscriber who wishes to add
content. The questions asked is, in some embodiments, specific to
the type of item added, and/or specific to the intellectual content
of the item added. In some embodiments, a sponsor of the item can
specify a set of questions to be presented to the subscribers that
add the item to the networking environment. Thus, in process 910,
the relational attributes of the service subscriber associated with
the web content are identified, for example, based on the responses
to the inquiries made to the subscribers.
[0269] The relational attributes of the service subscriber include
privacy and access settings of the web content. For example, the
service subscriber can indicate for web content added to the
networking environment, whether the web content is visible to other
users or not. In addition to visibility, the subscriber can
indicate whether other users can collect, bookmark, share, and/or
edit the web content. The subscriber can assign privacy attributes
on an individual basis, and/or on a group basis. For example, the
subscriber can allow the contacts who are friends of the subscriber
full access while allowing contacts who are colleagues, partial
access. The subscriber can also assign different privacy settings
and access rights to users who are subscribers versus visitors. The
subscriber may have a default set of privacy settings and/or access
rights for all items added unless otherwise noted.
[0270] In process 912, the web content is shared and distributed
based on user requests while enforcing the rules governing
accessibility of the web content. In addition to privacy rules of
the user that added the web content, the accessibility rules
specified by the content provider are also enforced. Actions
constituting sharing and/or distribution of the web content include
but are not limited to collecting, sending, sharing, adding to a
net, bookmarking, viewing, writing a comment regarding the web
content, asking a question regarding the web content, and/or
participating in a discussion about the web content, etc. In
process 914, the access and distribution of the web content are
tracked. The access and distribution is identified when one or more
of the above actions and/or other actions indicating user interest
in the web content are detected. In process 916, quantitative data
related to the access and distribution of the web content is
determined and recorded. In process 918, fees are assessed from the
content provider. In some embodiments, the content provider is a
sponsor (direct or third-party) who wishes to promote the material
in the web content, utilizing one or more of the special features
offered by the networking environment.
[0271] FIG. 10A illustrates an example user interface for signing
up for the knowledge networking environment 1002. FIG. 10B
illustrates an example user interface for viewing and/or editing
the user's profile 1012, according to one embodiment.
[0272] Once a user has created an account with the knowledge
networking environment by submitting the sign-up form, an email is
sent to verify the user identity and the validity of the email.
Note that the user can select a number of areas of interest in the
sign-up form such that networking environment can recommend content
to the user. In addition, the user can manually specify any other
interests not listed as a check-box entry. In one embodiment, the
networking environment generates a semantic profile based on the
information submitted by the user. For example, the text submitted
by the user as `other interests` can be analyzed for tags.
Therefore, based on information in the user's profile, the
relationship between the user and other objects in the networking
environment can initially be identified and tracked. The user
profile 1012 is typically generated after successfully signing up
for the networking environment and is provided upon user logon. The
user profile is typically editable by the user.
[0273] FIG. 11A illustrates an example sequence 1102-1104 of user
interfaces for inviting a user to join the knowledge networking
environment. FIG. 11B illustrates an example sequence 1106-1110 of
user interfaces for inviting another user to connect, according to
one embodiment.
[0274] An existing user of the knowledge networking environment can
invite someone who is currently not a member to join the network.
In the example of FIG. 11A, the existing user invites "Mary May" to
join the network. A custom invitation message can also be added to
be sent to the user "Mary May", for example, via email or other
delivery means. In addition, the existing user can add other users
as a connection in the network. For example, in FIG. 11B, user
interfaces 1106-1110, the user `ChrisJonesRulezOrz` wishes to add
an existing user `Mary May` as a connection in the network. In some
embodiments, the user can also elect to share their contact
information when inviting others to connect and/or when accepting a
request for a connection.
[0275] FIG. 11C illustrates an example sequence 1122 of user
interfaces for removing and/or updating a connection, according to
one embodiment.
[0276] Users can update connections and/or remove connections. In
most instances, the connection is notified when updated and/or
removed by another user. When information about a connection is
updated by another user, typically, the information change is sent
to the connection for approval prior to updates in the system. In
the example of FIG. 11C, the user `Mary May` wishes to change the
relationship type with user `ChrisJonesRulezOrz` as sister. A
request for verification is initially sent to the user
`ChrisJonesRulezOrz` and then updated in the system upon approval.
In some embodiments, a notification is sent to the user when the
operation has completed and/or failed.
[0277] FIG. 11D illustrates an example user interface 1132 showing
a list of users associated with a net, according to one
embodiment.
[0278] As shown, contacts of a user can be categorized by the type
of relationship a contact has with the user, the tags associated
with the contact, groups the contacts are members of, and/or
organizations the contacts belong to. Contacts can be automatically
and/or manually placed into these and/or additional categories in
which to associate contacts with. Additional categories such as,
including but is not limited to, `Is between the age group of,
`Went to college at`, are contemplated and do not deviate from the
novel art of this disclosure. In addition, users can manually
remove contacts from categories if deemed unsuitable and
so-desired.
[0279] Contacts can be automatically categorized by the knowledge
networking environment based on their semantic profiles and their
identified relationships (social, semantic, keyword match, and/or
social semantic) with the user. Further classification can be
achieved based on semantic relationships between the user's profile
and the contacts' profiles.
[0280] FIG. 11E illustrates an example user interface displaying a
partial list of the user's contacts on the first user contacts'
page. For example, the list shows each contact's name and/or their
user name, if they are members of the network. In some embodiments,
if a contact is a user of the network, the user interface provides
a hyperlink for the user to request to connect with the contact in
the knowledge networking environment. Further, in some embodiments,
the username of the contact provides a hyperlink to the contact's
profile that the user can view provided allowed by the contact's
privacy settings. Similarly, if a contact is not a user of the
network, the interface provides a hyperlink to allow the user to
invite the contact to the network.
[0281] FIG. 12A illustrates an example user interface 1202 showing
a user welcome screen, according to one embodiment.
[0282] The user welcome screen can be displayed when a user logs on
to the knowledge networking environment. In the example shown, the
user is able to view notifications indicating recent activities,
including, but not limited to, other users that responded to a
request made by the user. Requests placed to other users include
invitations to join the network, invitation to join a group, and/or
invitation to connect, etc. In addition, the home page, in most
instances, displays request that the user has received from other
users and/or groups. In one embodiment, the home page lists a log
of the recent activities of the user. For example, the home page
can display a list of pages recently visited, nets recently
visited, recent comments, new connections made, new posts to nets,
and/or new nets created by the user, etc.
[0283] In one embodiment, the user can create a net via the home
page. For example, the user can initiate a net ("Twine") via
selecting the `Start a Twine` button 1204. In addition, via the
home page, the user can add content to the knowledge networking
environment via selecting the button `Get the Bookmarklet` 1206. In
addition, buttons 1208 and 1210 enable users to import content and
post to nets (or "Twine") via email.
[0284] The welcome page 1202 can also display a shortcut for nets
of interest to the user. For example, the user's nets can be
displayed in box 1212. In addition, nets that the user is a member
of can also be displayed. In most instances, the user can specify
the nets to be displayed in the shortcut box and/or the criteria
for the system to determine the nets to be displayed. The knowledge
networking environment can, in one embodiment, automatically
generate tag clouds that can be displayed on the home page, for
example, in box 1216 on the home page 1202. For example the tag
cloud `People` can be populated with tags that are people's names.
Similarly, the tag cloud `Places` can be populated with tags that
are names of locations, street names, cities, countries, and/or
sights, etc. Note that the tags displayed can be those identified
in the user's nets, in the users connections' nets, and/or in the
entire knowledge networking platform. In some embodiments, sources
from which the tags to be displayed on the home page are
identified, are user specifiable.
[0285] In one embodiment, tag cloud categories are customizable.
Users can add an additional tag cloud categories and add tags to
the particular tag cloud category. Users can also delete categories
or modify the scope of existing categories. For example, instead of
having a tag cloud `People`, the user may specify a tag cloud of
`Celebrities`. In a further example, a user may add a category of
`Products` and associate items with tags of `iPhone` with the tag
cloud `Products`.
[0286] FIG. 12B illustrates an example user interface showing view
of objects (items) in a net 1220. FIG. 12C illustrates an example
user interface for exploring nets 1222, according to one
embodiment.
[0287] The user interface 1220 illustrates a set of items
associated with one of user's ("Bob Hope") nets. In this example, a
list of events is displayed. Note that items that can be included
in a net include, in addition to events, but are not limited to,
contacts, web pages, videos, images, and/or articles, etc. In
addition, a list of tags that are detected in the particular net is
displayed in the object view of the net. The number of tags to be
displayed may be user specifiable. In addition, the visualization
of the tags (e.g., the relative sizes, relative positions, colors,
font, etc.) may also be user specifiable.
[0288] The user interface 1222 provides to the user, an overview of
a list of nets ("Twines") associated with the user. For example,
the nets can be displayed as results of a search query. The nets
can also be displayed based on identified social proximity between
the net and the user. The exploration view of various nets, also,
in some embodiments, enables the user to join a net. In addition,
the net exploration view can also enable a user to request
membership in a net where membership is restricted and/or where
approval is required. The user, in some instances, also manages the
nets created by the user and/or the nets that the user is an
administrator of. For example, the user can select to invite
members and/or manage the net. In most instances, the net
exploration view also provides general information about the net,
including the name of the net, a summary of the net, if applicable,
and/or some membership related information.
[0289] FIG. 13A illustrates an example user interface showing the
home page 1302 of a net, according to one embodiment.
[0290] A net home page can display recent updates in the net,
including, but not limited to, new members, newly posted items,
and/or newly posted/edited comments, for example. The home page can
also display general information about the net, including, but not
limited to, number of members, when the net was created, number of
posts, etc. as shown in box 1304. In addition, in box 1306, a list
of tags identified from objects (items) in the net can be
displayed. In some embodiments, the list of tags can be categorized
into tag clouds, as previously described.
[0291] FIG. 13B illustrates an example applet interface 1310 for
adding an item to nets. In the applet, the title can be specified
along with additional comments and/or any manual tags that the user
wishes to specify. In addition, the user can select the nets to
which the item is to be posted to.
[0292] FIG. 13C illustrates an example user interface showing an
object (item) posted to a net via email, according to one
embodiment.
[0293] The user interface illustrates a view of an item in the net
("The Ruby Labs Public Test Twine") that was posted by email. The
email posting typically further includes who the posting was made
by and to whom the post was addressed to in the net. In addition,
the item view includes comments by visitors of the net and/or other
members of the net.
[0294] FIG. 14A illustrates an example user interface 1402 for
exploring nets in the knowledge networking environment, according
to one embodiment.
[0295] In the net exploration view, a directory of nets can be
listed. In addition, a list of featured nets, for example, popular
nets are displayed on the net exploration page. Popular tags
identified in content may also be displayed. The displayed tags are
typically hyperlinks that when clicked, a search query is
automatically performed for content having the tag that was clicked
on. In addition, a list of featured users can also be displayed.
The list of featured users can be selected randomly by the system.
In some embodiments, the list of featured users are identified and
displayed based on user specified criteria. For example, the user
may indicate a preference for ("new users that are interested in
entrepreneurship") to be featured on the net exploration page.
[0296] FIG. 14B and FIG. 14C illustrate an example user interface
for searching for an additional set of search results having a
specified type of relationship with a first set of search results,
according to one embodiment.
[0297] A text based filter/search can be performed via submitting a
search query to identify/filter a set of nets and/or objects of
potential interest. In addition, the filter/search parameters
specify items associated with specific users. For example, in box
1408, the user can select to filter search results to items that
are shared by, added by, edited by, and/or commented by a specified
set of users. In the example shown in box 1408, the user can select
to filter search results that are related to the user himself, the
user's connections, and/or members of nets that the user belongs
to. With further reference to boxes 1408A and 1408B, the user can
limit the search to items related to specific users, for
example.
[0298] In addition, the user can select to filter search results
based on temporal properties of the items. For example, in box 1410
and with further reference to box 1410A, the user can elect the
date and/or time the specific actions were performed on the item
(e.g., shared, added, edited, and/or commented). As shown, a range
of dates/time within which the search is to be conducted can be
specified.
[0299] In one embodiment, search results are further filtered based
on identified tags in the search results. For example, as shown in
box 1412, users can elect to see content with related tags, broader
tags, and/or narrower tags. The concept of hierarchical browsing
via utilization of narrower and broader tags can be visualized with
further reference to boxes 1412A-C. The user can search within a
set of contacts, having different types of semantic relationships.
When the user selects to see contacts having a semantic
relationship of being employed by a company, the user is routed to
1412B and then to 1412C, where the user can see a list of companies
that his/her contacts work at.
[0300] FIG. 15A illustrates an example user interface 1502 for
creating a note object in a net. FIG. 15B illustrates an example
user interface 1504 showing a note object in a net, according to
one embodiment.
[0301] When adding a note to a net, the name of the note can be
specified in the form. The interface also includes a field to add
the note itself, a field to add an URL, and a field to add an
attachment. The note item, after submission to one or more nets,
can be displayed in the net as shown in the user interface 1504.
The note item view can include comments posted by members and/or
visitors related to the note item. The note item view may also
include a list of the nets that the note is shared with. In one
embodiment, a list of tags identified in the note item is displayed
in the note item view as well. In some embodiments, a list of tags
identified in the net associated with the note item can be
displayed.
[0302] FIG. 15C illustrates an example user interface 1512 for
adding a video object to a net.
[0303] FIG. 15D illustrates an example user interface 1514 for
adding a photo object to a net, according to one embodiment. FIG.
15E illustrates example user interfaces for adding a book object
1522, FIG. 15F illustrates an example user interface for adding a
document 1524, and FIG. 15G illustrates an example user interface
for adding a bookmark 1526 to a net, according to one embodiment.
Note that objects can be added from a third-party content host,
including but not limited to, Youtube, Flickr, Facebook, Digg,
and/or other content-rich websites via entering the URL of the
content to be added as shown in the respective user interface above
for adding, images, videos, notes, documents, web pages, and/or
books.
[0304] In some embodiments, content stored locally on a user device
is added to the knowledge networking platform and/or a specific
net. For example, a user may wish to upload pictures taken from a
vacation in Hawaii to the user's vacation net ("Vacation in
Hawaii"). Thus, a similar user interface can be used where the user
specifies the directory pathway where the pictures are located.
Various user interfaces can be used for different types of content,
for example, but not limited to, document files, contacts,
bookmarks, image files, video files, audio files, recordings,
notes, calendar events, tasks, system files, applications, and/or
other types of executables, etc. Note that files with various
formats are typically compatible and can be properly recognized
when uploaded to the networking environment, for example files
associated with Microsoft Outlook, Google Calendar, iCalendar,
vCalendar, Yahoo! Calendar, by way of example but not limitation,
.csv files, .ics files, .vcf files, vCards, etc.) can be otherwise
recognized, identified, and properly categorized and organized in
the network.
[0305] In some instances, previews are available for the user to
inspect how the content will appear when presented. For example,
users may be able to view the results of a video and/or audio
cropping when adding the files to the knowledge networking
environment. If unsatisfactory, the user may readjust the crop
settings, for example, and re-upload the files. In other
embodiments, other types of edits to files added to the network are
performed, including but not limited to, redacting a document,
adjusting the color/sharpness of an image, and/or audio mixing, are
additionally contemplated and considered to be within the novel art
of this disclosure. Alternatively, the same user interface can, in
some instances, be used for content of different formats.
[0306] In some embodiments, content is automatically identified
from a user device, or any digital device with data storage
capabilities (e.g., volatile memory, non-volatile memory such as
flash memory, hard disk drive, SD cards, and/or removable media
such as CDs, DVDs, BluRay, HD-DVD, etc.), by way of example but not
limitation, portable device, laptop, desktop computer, cell phone,
iPhone, Blackberry, digital cameras, Treo, camcorders, etc. For
example, the knowledge networking environment can launch an applet
for searching for content on a user device. In addition, the
networking environment can prompt the user to install an
application (e.g., host or third-party) on their local device to
perform the content search. For example, the applet and/or
application may allow the user to specify to search for all
multimedia content or to search for documents edited in the last
month. The applet may further enable the user to search by content,
such as all files that are related to "India" or pictures taken in
2005 in India, for example.
[0307] The user may further specify the networking environment to
search for all contact information or search for contact
information of colleagues to be imported to the network. In
addition, files such as web-browser bookmarks can be automatically
identified for various browsers on different operating systems and
provided to the user for optional sharing in the networking
environment. In some situations, the user can, via enable the
networking environment to search for new content periodically on
one or more user devices. For example, the user may set the
parameters to search for new contacts every two months, search for
new documents every week, etc.
[0308] In some embodiments, the applet searches through content
without user specified parameters. Once files have been
automatically located by the networking environment, a list of the
results is, in some embodiments, presented to the user to select
the ones that are to be added to the network. In addition, the user
can specify that the files are to be automatically added to the
network after they have been identified on a local device, without
further confirmation from the user.
[0309] FIG. 16 illustrates screenshots of example user interfaces
for sharing objects (items) with nets ("Twines") 1602 and
connections 1604, according to one embodiment.
[0310] In the user interface 1602, the nets with which a user
wishes to share an item with can be selected. In addition, the user
can attach an optional message with the shared item. In the user
interface 1604, the users with whom a user wishes to share an item
with can be selected. Similarly, an optional note can be attached
with the shared item.
[0311] FIG. 17A illustrates example user interfaces 1702 and 1074
for importing bookmarks, according to one embodiment. FIG. 17B
illustrates an example user interface 1076 for displaying a list of
bookmarks.
[0312] User interface 1702 allows a user to submit the directory
path where their bookmark file is stored. The user interface 1702
may further display a set of instructions for users to locate
bookmark files on local hard drives. In some embodiments,
instructions are provided for various web browsers and operating
systems, including, but are not limited to, Internet Explorer,
Firefox, and/or Safari. Once a bookmark file has been uploaded, the
bookmarks can be displayed in a list, in one embodiment, as shown
in user interface 1706. The user can go through the list to select
the ones to be imported, for example. Once the user hits the
`Import` button, a confirmation message is optionally displayed. In
one embodiment, the screenshot 1704 illustrates a user interface
for importing items, for example, from a user's hard disk drive to
a net.
[0313] FIG. 17C illustrates example user interfaces 1712 and 1714
for importing contacts, according to one embodiment. FIG. 17D
illustrates an example user interface for displaying a contact list
1716.
[0314] User interface 1712 allows the user to submit the directory
path where a contact list (e.g., a contact list in CSV format) is
locally stored. Contact lists stored in additional formats can also
be submitted. Once a contact list has been submitted, the list can
be displayed as shown in screenshot 1716, where a user can select
the contacts in the list to be imported. With reference to boxes
1714A and 1714B, the user can select, from the drop down menu to
import bookmarks or contacts.
[0315] FIG. 18 depicts a flow diagram illustrating a process of
identifying semantic metadata of objects in a web-space, according
to one embodiment.
[0316] In process 1802, a web-space having a plurality of objects
is hosted. Objects can include, but is not limited to, web-based
items, users, contacts, user information, and/or nets. Web-based
items can include, by way of example, but not limitation,
documents, files, image files, text files, video files and/or audio
files. In process 1804, an explicit relationship between at least
two objects of the set of objects is tracked. In process 1806, an
implicit relationship between at least two objects is tracked. An
example list of types of relationships identified in the knowledge
networking platform is illustrated with further reference to the
tables shown in FIG. 8E.
[0317] In process 1808, a default set of privacy rules governing
access between the at least two objects based on one or more of the
identified explicit relationship and the implicit relationship is
determined. In process 1810, semantic metadata of the plurality of
objects in the web-space is identified, based on at least one of
the process 1812 (user specification), process 1814 (natural
language processing), entity extraction (1816), and/or ontological
classification (1818). In process 1820, semantic tags are
identified from the semantic metadata.
[0318] FIG. 19 depicts a flow diagram illustrating a process of
managing a net in the knowledge networking environment, according
to one embodiment.
[0319] In process 1902, a request is received from an administrator
user to create a net. In process 1904, a net is created in the
web-space and the administrative user is designated as having a
membership status of an administrative member of the net. In
process 1906, membership criteria of the net governing user
association with the net is set. In process 1908, access rights of
the web-items in the net to be one or more of a pre-determined set
of tiered access levels is set. In process 1910, a request is
received from one or more of the net administrator and the user to
associate a user with a net. In process 1912, the request for
membership is granted when the request is in compliance with the
membership criteria. In process 1914, a request to associate
web-items with the net is received. In process 1916, the web-items
are associated with the net when in compliance with the access
rights. In process 1918, a request to access a web-item is
received. In process 1920, a web-item of the net is presented to a
requesting party when the request is in compliance with the access
right of the web-item.
[0320] FIG. 20 depicts a flow diagram illustrating a process of
identifying semantic social links in the knowledge networking
environment, according to one embodiment.
[0321] In process 2002, a first set of web-items and a first set of
nets having an explicit relationship and/or implicit relationship
with a first user is identified. In process 2004, a first set of
semantic tags is identified from metadata of the first set of
web-items, metadata of the first set of nets, and/or user metadata
of the first user. In process 2006, the plurality of objects in the
web-space is searched for a second set of web-items and/or a second
set of nets having a second set of semantic tags that are
semantically related to the first set of semantic tags. In process
2008, a second set of users having an explicit relationship and/or
an implicit relationship with the second set of web-items and/or
the second set of nets is identified. In process 2010, the first
user and the second set of users are semantically socially linked.
In process 2012, the user metadata of the set of users in the
web-space is searched for a third set of semantic tags that are
semantically related to the first set of semantic tags. In process
2014, a third set of users having an explicit relationship and/or
an implicit relationship with a third set of web-items and/or a
third set of nets associated with the third set of semantic tags is
identified. In process 2016, the first user and the third set of
users are semantically socially linked.
[0322] FIG. 21 depicts a flow diagram illustrating a process of
making intelligent recommendations to users of the knowledge
networking environment, according to one embodiment.
[0323] In process 2102, indication that objects associated with a
second user of potential interest to the first user are present is
automatically identified to the first user. In process 2104, a
request made by the first user to access the objects is relayed to
the second user. In process 2106, an authorization is received from
the second user. In process 2108, the objects are presented to the
first user.
[0324] FIG. 22 depicts a flow diagram illustrating a process of
creating and updating a knowledge database in the knowledge
networking environment, according to one embodiment. In process
2202, a knowledge database associated with a web-space comprising a
networking environment is created. In process 2204, a predetermined
set of ontologies is stored in the knowledge database. In process
2206, an update-able set of taxonomies is maintained based on
identified tags in the web-space. In process 2208, questions asked
by service subscribers, and/or an answer to a question of the
questions provided by another user are stored in the knowledge
database. In process 2210, a ratings system for service subscribers
to rate answers to the questions is provided and stored in the
knowledge database. In process 2212, facts and/or statistics
provided by the service subscribers are stored in the knowledge
database. In process 2214, products and/or service listings are
stored and updated in the knowledge database. The products and/or
service listings can be semantically tagged and are semantically
linkable to the services subscribers and web-content.
[0325] FIG. 23 depicts a flow diagram illustrating a process of
creating and updating a knowledge database in the knowledge
networking environment, according to one embodiment.
[0326] In process 2302, an object to be tagged is received. In
process 2304, the tags that are parts-of-speech are detected via
natural language processing and/or expression analysis. In process
2306, the tags that are entities are detected via one or more
entity detection mechanisms. In process 2308, the tags are
identified based on metadata of the object. In process 2310, the
tags are identified via detecting the tags in a pre-determined
knowledge database. In process 2312, the concepts that the object
encompasses are identified via Bayesian classification. In process
2314, tags in a plurality of objects in a web-space are identified.
In process 2316, tags that are edited by users are optionally
tracked and recorded. In process 2318, a string tag is optionally
converted into a semantic tag. In process 2320, a prefix of the tag
is optionally represented as a semantic object.
[0327] FIG. 24 depicts a flow diagram illustrating a process of
determining the category of the subject matter of a piece of
intellectual content, according to one embodiment.
[0328] In process 2402, classified content is analyzed. The
classified content can spread multiple subject matter categories in
a knowledge database with a pre-determined structure. In process
2404, the statistical classification rules for identifying
intellectual content having an indication of embodying a particular
subject matter of the multiple subject matter categories are
determined. In process 2406, the piece of intellectual content is
analyzed via the Bayesian classification process. In process 2408,
the probability that the piece of intellectual content embodies one
or more subject matters of the multiple subject matter categories
is estimated. In process 2410, the piece of intellectual content is
determined to embody a particular subject matter category. In
process 2412, the piece of intellectual content is optionally
analyzed to determine whether the intellectual content embodies a
sub-category of the particular subject matter category.
[0329] FIG. 25 depicts a flow diagram illustrating a process of
ranking search results based on the degree of separation, according
to one embodiment.
[0330] In process 2502, a request to generate search results based
on a search query provided by a user is received. In process 2504,
the search results comprising a set of objects are identified. In
one embodiment, an object of the set of objects has at least one
semantic relationship with the search query. In process 2506, the
degree of separation between the user and one or more objects of
the set of objects is determined. In process 2508, the search
results comprising the set of objects are provided to the user. In
some embodiments, the search results include an indication of the
degree of separation between the user and the set of objects. In
process 2510, the set of objects is ranked based on the degree of
separation.
[0331] Although embodiments have been described with reference to
specific example embodiments, it will be evident that the various
modification and changes can be made to these embodiments.
Accordingly, the specification and drawings are to be regarded in
an illustrative sense rather than in a restrictive sense. The
foregoing specification provides a description with reference to
specific exemplary embodiments. It will be evident that various
modifications may be made thereto without departing from the
broader spirit and scope as set forth in the following claims. The
specification and drawings are, accordingly, to be regarded in an
illustrative sense rather than a restrictive sense.
* * * * *
References