U.S. patent application number 14/625462 was filed with the patent office on 2015-06-25 for deployment and distribution model for improved content delivery system.
The applicant listed for this patent is QUALCOMM Incorporated. Invention is credited to Baaziz Achour, Brian K. Butler, Peter Carson, Matthew Stuart Grob, Sanjay K. Jha, Peter Hans Rauber.
Application Number | 20150181299 14/625462 |
Document ID | / |
Family ID | 41314700 |
Filed Date | 2015-06-25 |
United States Patent
Application |
20150181299 |
Kind Code |
A1 |
Rauber; Peter Hans ; et
al. |
June 25, 2015 |
Deployment and Distribution Model for Improved Content Delivery
System
Abstract
A deployment and distribution model improves content delivery
with a business incentive for placement of kiosks with one or more
wireless access points in public locations so that portable media
players (PMPs) can receive media content (e.g., audio, video, text,
haptic content, etc.). In addition, coordination between
subscribing users of PMPs, vendors who provide kiosks, and a
network central controller of a content distribution system allow
for prepositioning of video content at the kiosks through
economically desirable low data rate communication links from the
network (e.g., dial-up modem, DSL, etc.); coordinated queuing of
downloads (e.g., partial downloads) between kiosk to PMP,
peer-to-peer (P2P) downloading between PMPs, and uploads from PMP
to kiosk; billing/crediting to correspond with such participation
in the distribution; and changing priority/selection of
prepositioning of content at kiosks to reflect a clientele
profile.
Inventors: |
Rauber; Peter Hans; (Vienna,
AT) ; Grob; Matthew Stuart; (La Jolla, CA) ;
Achour; Baaziz; (San Diego, CA) ; Butler; Brian
K.; (La Jolla, CA) ; Carson; Peter; (San
Diego, CA) ; Jha; Sanjay K.; (Rancho Santa Fe,
CA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
QUALCOMM Incorporated |
San Diego |
CA |
US |
|
|
Family ID: |
41314700 |
Appl. No.: |
14/625462 |
Filed: |
February 18, 2015 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
12203099 |
Sep 2, 2008 |
8966001 |
|
|
14625462 |
|
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|
Current U.S.
Class: |
725/1 |
Current CPC
Class: |
H04N 21/25435 20130101;
H04L 67/06 20130101; H04N 21/47211 20130101; H04N 21/41407
20130101; H04L 69/14 20130101; Y02D 50/30 20180101; G06Q 30/0601
20130101; Y02D 30/50 20200801; G06Q 30/02 20130101; H04N 21/6131
20130101; G06Q 30/0255 20130101; H04N 21/2541 20130101; G06Q 30/04
20130101; H04N 21/64322 20130101; H04L 67/04 20130101 |
International
Class: |
H04N 21/472 20060101
H04N021/472; H04N 21/414 20060101 H04N021/414; H04N 21/61 20060101
H04N021/61; H04N 21/643 20060101 H04N021/643; H04N 21/2543 20060101
H04N021/2543; H04N 21/254 20060101 H04N021/254 |
Claims
1. A method for wirelessly acquiring media content comprising:
wirelessly initiating a purchase of media content; receiving, at a
mobile device, media content selection from a user via a user
interface; receiving, at the mobile device, authorization to
receive selected media in connection with initiating the purchase
of media content; requesting and receiving from a wireless access
point, at the mobile device, a first portion of the selected media
content; requesting and receiving, through peer-to-peer
communications, at the mobile device, a second portion of the
selected media content from a wireless communication channel; and
reporting receipt of at least a portion of the selected media
content to a network controller, wherein requesting and receiving
said second portion of the selected media content, is accomplished
by the user via the user interface in connection with the mobile
device being outside of communication coverage with the wireless
access point.
2. The method of claim 1, wherein a provider of the wireless
communication channel is another subscribing portable device.
3. The method of claim 1, further comprising displaying download
progress to the user via the user interface.
4. The method of claim 1, further comprising transmitting the
stored media content for play by a display monitor.
5. The method of claim 1, further comprising: receiving a request
from the vendor provided access point for media content stored on
the subscribing portable device; and wirelessly uploading the
requested media content for receiving a subscriber credit.
6. The method of claim 1, further comprising receiving a beacon
signal.
7. The method of claim 5, further comprising displaying a coverage
area indication based on the beacon signal.
8. The method of claim 1, further comprising transmitting a beacon
signal.
9. An apparatus for wirelessly acquiring media comprising: a memory
apparatus; and at least one processor coupled to said memory
apparatus and cooperable therewith to implement: a first module for
receiving media content selection from a user via a user interface;
a second module for wirelessly receiving, at a mobile device, via a
wireless access point, a first portion of the selected media
content; a third module for requesting and receiving, in connection
with the mobile device being outside of communication coverage with
the wireless access point, through peer-to-peer communications, at
the mobile device, a second portion of the selected media content
from a wireless communication channel; and a fourth module for
reporting receipt of at least a portion of the selected media
content to a network controller.
10. A non-transitory computer program product for wirelessly
acquiring media content, comprising: a non-transitory
computer-readable storage medium comprising instructions which,
when executed by a computer, cause the computer to, wirelessly
initiate a purchase media content; receive media content selection
from a user via a user interface; request and receive from a
wireless access point, at least a first portion of the selected
media content; request and receive, in connection with the mobile
device being outside of communication coverage with the wireless
access point, through peer-to-peer communications at the mobile
device, a second portion of the selected media content from a
wireless channel; and report receipt of at least a portion of the
selected media content to a network controller.
11. An apparatus for wirelessly acquiring media content comprising:
means for receiving, at a mobile device, media content selection
from a user via a user interface; means for wirelessly receiving,
at the mobile device, authorization to receive, selected media
content selected media content in connection with initiating a
purchase of media content; means for requesting and receiving, from
a wireless access point, at least a first portion of the selected
media content; means for requesting and receiving, in connection
with the mobile device being outside of communication coverage with
the wireless access point, through peer-to-peer communications at
the mobile device, a second portion of the selected media content
from a wireless communication channel; and means for reporting
receipt of at least a portion of the selected media content to a
network controller.
Description
CROSS REFERENCE TO CO-PENDING PATENT APPLICATIONS
[0001] The present application for patent is a Division U.S. patent
application Ser. No. 12/203,099 filed Sep. 2, 2008 and is related
to the following co-pending U.S. patent applications:
[0002] "Access Point for Improved Content Delivery System" by Peter
Rauber, et al., having Attorney Docket No. 080023, filed
concurrently herewith, assigned to the assignee hereof, and
expressly incorporated by reference herein; and
[0003] "Methods and Apparatus for an Enhanced Media Content Rating
System" by Grob, et al., having Attorney Docket No. 080022, filed
concurrently herewith, assigned to the assignee hereof, and
expressly incorporated by reference herein.
FIELD OF INVENTION
[0004] Aspects disclosed herein pertain to a communication network
that distributes media content to a mobile communication device via
geographically positioned kiosks that support wireless access
points, and in particular, to providing a subscription-based
distribution service with wireless download in intermittent
coverage areas.
BACKGROUND
[0005] Users desire continuous access to media content across a
wide array of devices, both fixed and mobile. Abilities to rapidly
download media content in a "pay per view" subscription from a set
top box or to download or stream media content over a broadband
connection raise expectations for instant access. Reduced time is
desired between making a selection and having the selection.
[0006] With expanded storage, processing and display capabilities,
portable devices that play media content (e.g., audio, video, text,
haptic material, etc.) are becoming ubiquitous. Portable media
players (PMP) can also be just one aspect of a convergent handheld
device that has uses such as a personal digital assistant (PDA),
cellular telephone, email application, etc. For some users who
travel frequently, a mobile communication device that serves at
least in part as a PMP can become a predominant source of
entertainment and information.
[0007] Third-generation (3G) communication networks, which are
still being deployed, are all digital, and offer data access in
addition to voice services and include W-CDMA (known also as UMTS),
and CDMA2000 EV-DO. Operators that support a population of mobile
communication devices offer certain capabilities for selecting and
downloading media content, either unicast or multicast. Typically,
the video display quality is appropriate for the relatively small
displays of a smart phone or similar handheld device wherein the
high data compression makes use of the bandwidth constrained
channel economically feasible.
[0008] New PMPs are offering larger displays and increased memory
storage that are suitable to playing video with higher quality.
Thus, downloading of media content requires access to a broadband
communication channel with sufficient data rates for downloading
larger files. These broadband network access ports or wireless
coverage areas at a home or public place act as an intermediary
between a source of the media content and the end user PMP. Given
the large bandwidth consumption needed by the PMP to download, for
example, a movie file, there can be few locations with sufficient
capability to allow such use. Moreover, with increasing numbers of
such PMP devices, the existing infrastructure of broadband network
access locations available for PMP devices to use within a
reasonable period of time can be expected to be limited.
Consequently, the distribution of media content to PMP-capable
devices can be limited to those who rely upon home use and have
made the necessary investment in broadband network access.
SUMMARY
[0009] The following presents a simplified summary in order to
provide a basic understanding of some aspects of the disclosed
aspects. This summary is not an extensive overview and is intended
to neither identify key or critical elements nor delineate the
scope of such aspects. Its purpose is to present some concepts of
the described features in a simplified form as a prelude to the
more detailed description that is presented later.
[0010] In accordance with one or more aspects and corresponding
disclosure thereof, various aspects are described in connection
with providing a deployment and distribution model for improved
content delivery that provides a business incentive for placement
of kiosks with one or more wireless access points in public
locations so that portable media players (PMPs) can receive media
content (e.g., audio, video, text, haptic content, etc.). In
addition, coordination between subscribing users of PMPs, vendors
who provide kiosks, and a network central controller of a content
distribution system allow for prepositioning of video content at
the kiosks through economically desirable low data rate
communication links from the network (e.g., dial-up modem, DSL,
etc.); coordinated queuing of downloads (e.g., partial downloads)
between kiosk to PMP, peer-to-peer (P2P) downloading between PMPs,
and uploads from PMP to kiosk; billing/crediting to correspond with
such participation in the distribution; and changing
priority/selection of prepositioning of content at kiosks to
reflect a clientele profile.
[0011] In one aspect, a method wirelessly acquires media content.
Media content selection is received from a user via user interface.
A first portion of the selected media content from a wireless
access point, which had accessed the selected media content from
local storage. A second portion of the selected media content is
requested and received from a wireless communication channel.
Reporting receipt of at least a portion of the selected media
content to a network controller.
[0012] In another aspect, at least one processor wirelessly
acquires media content. A first module receives media content
selection from a user via user interface. A second module receives
a first portion of the selected media content from a wireless
access point, which had accessed the selected media content from
local storage. A third module requests and receives a second
portion of the selected media content from a wireless communication
channel. A fourth module reports receipt of at least a portion of
the selected media content to a network controller.
[0013] In an additional aspect, a computer program product for
wirelessly acquiring media content has a computer-readable storage
medium having a first set of instructions for causing a computer to
receive media content selection from a user via user interface. A
second set of instructions causes the computer to receive a first
portion of the selected media content from a wireless access point,
which had accessed the selected media content from local storage. A
third set of instructions causes the computer to request and to
receive a second portion of the selected media content from a
wireless communication channel. A fourth set of instructions causes
the computer to report receipt of at least a portion of the
selected media content to a network controller.
[0014] In another additional aspect, an apparatus wirelessly
acquires media content. Means are provided for receiving media
content selection from a user via user interface. Means are
provided for receiving a first portion of the selected media
content from a wireless access point, which had accessed the
selected media content from local storage. Means are provided for
requesting and receiving a second portion of the selected media
content from a wireless communication channel. Means are provided
for reporting receipt of at least a portion of the selected media
content to a network controller.
[0015] In further aspect, an apparatus wirelessly acquires media
content. A user interface receives media content selection from a
user. A communication module receives a first portion of the
selected media content from a wireless access point, which had
accessed the selected media content from local storage, and for
requesting and receiving a second portion of the selected media
content from a wireless communication channel. A content
distribution controller reports receipt of at least a portion of
the selected media content to a network controller via the
communication module.
[0016] In yet one aspect, a method wirelessly distributes media
content. A media content selection is received from a user via user
interface. A first portion of the selected media content from local
storage is transmitted via a wireless access point to a subscriber
portable device. A second portion of the selected media content is
transmitted from a wireless communication channel. A report of
receipt of at least a portion of the selected media content is
received by a network controller.
[0017] In yet another aspect, at least one processor wirelessly
distributes media content. A first module receives media content
selection from a user via user interface. A second module transmits
a first portion of the selected media content from a wireless
access point, which had accessed the selected media content from
local storage, to a subscriber portable device. A third module
transmits a second portion of the selected media content from a
wireless communication channel. A fourth module receives a report
of receipt of at least a portion of the selected media content to a
network controller.
[0018] In yet an additional aspect, a computer program product
wirelessly distributes media content by having a computer-readable
storage medium containing a first set of instructions that causes a
computer to receive media content selection from a user via user
interface. A second set of instructions causes the computer to
transmit a first portion of the selected media content from a
wireless access point, which had accessed the selected media
content from local storage, to a subscriber portable device. A
third set of instructions causes the computer to transmit a second
portion of the selected media content from a wireless communication
channel. A fourth set of instructions causes the computer to
receive a report of receipt of at least a portion of the selected
media content to a network controller.
[0019] In yet another additional aspect, an apparatus wirelessly
distributes media content. Means are provided for receiving media
content selection from a user via user interface. Means are
provided for transmitting a first portion of the selected media
content from a wireless access point, which had accessed the
selected media content from local storage, to a subscriber portable
device. Means are provided for transmitting a second portion of the
selected media content from a wireless communication channel. Means
are provided for receiving a report of receipt of at least a
portion of the selected media content to a network controller.
[0020] In yet a further aspect, an apparatus wirelessly distributes
media content.
A communication module receives media content selection from a user
via user interface. A vendor access point transmits a first portion
of the selected media content from local storage to a subscriber
portable device. A wireless communication channel transmits a
second portion of the selected media content. A billing module
receives a report of receipt of at least a portion of the selected
media content to a network controller.
[0021] To the accomplishment of the foregoing and related ends, one
or more aspects comprise the features hereinafter fully described
and particularly pointed out in the claims. The following
description and the annexed drawings set forth in detail certain
illustrative aspects and are indicative of but a few of the various
ways in which the principles of the aspects may be employed. Other
advantages and novel features will become apparent from the
following detailed description when considered in conjunction with
the drawings and the disclosed aspects are intended to include all
such aspects and their equivalents.
BRIEF DESCRIPTION OF THE DRAWINGS
[0022] The features, nature, and advantages of the present
disclosure will become more apparent from the detailed description
set forth below when taken in conjunction with the drawings in
which like reference characters identify correspondingly throughout
and wherein:
[0023] FIG. 1 illustrates a block diagram of a content delivery
system for wirelessly transmitting media content to a portable
device partially through a kiosk access point and partially via
communication channel;
[0024] FIG. 2 illustrates a methodology for wirelessly distributing
media content;
[0025] FIG. 3 illustrates a block diagram of a content delivery
system utilizing a communication network for wireless distribution
of media content to a portable device;
[0026] FIG. 4 illustrates a block diagram of a network central
controller, a kiosk, and a portable device such as a portable media
player (PMP);
[0027] FIG. 5 illustrates a timing diagram of a user PMP
downloading media content from kiosks and another PMP that
originates from a central component of a content distribution
system;
[0028] FIG. 6 illustrates a flow diagram for a portable or mobile
device participating in the content delivery system;
[0029] FIG. 7 illustrates a flow diagram for a kiosk/access point
participating in the content delivery system; and
[0030] FIG. 8 illustrates a flow diagram for a network central
controller participating in the content delivery system.
DETAILED DESCRIPTION
[0031] Various aspects are now described with reference to the
drawings. In the following description, for purposes of
explanation, numerous specific details are set forth in order to
provide a thorough understanding of one or more aspects. It may be
evident, however, that the various aspects may be practiced without
these specific details. In other instances, well-known structures
and devices are shown in block diagram form in order to facilitate
describing these aspects.
[0032] Turning to the Drawings, in FIG. 1, an exemplary content
delivery system 100 economically expeditiously distributes media
content to a wireless capable mobile device 102 that comprises or
includes a media player 104. A user 106 can utilize a user
interface 108, which can be external or integral to the mobile
device 102, to communicate a selection 110, such as found in a
media content catalog 112 received by the mobile device 102 or the
user interface 108.
[0033] In another aspect, these selections 110 can comprise a more
general category in advance of specific selections being available
or being specifically selected. For example, the user can select
"top movie download of the week" or "any movie starring John
Smith". In an additional aspect, for a user interface 108 integral
to or in local communication with the mobile device 102, the user
can make selections "off-line" as a "wish list", which can include
query search terms that are user generated without benefit of a
pre-established catalog listing or be from the catalog as
previously received. The selection 110 thus becomes known to other
entities of the content delivery system 100 when in wireless
communication range.
[0034] A network control device 114 of the content delivery system
100 receives the selection and authorizes the user 106 as a
subscriber for receiving the selected media content.
Advantageously, a vendor kiosk 116 has previously received the
media content and stored the media content in local storage 118
along with an updated catalog 120 reflecting availability of media
content for wireless distribution to the mobile device 102.
Prepositioning can utilize a low band width communication channel
122 such a broadcast signal from which the vendor kiosk 116 records
certain content items as directed or selected. Prepositioning can
utilize a dial-up modem or DSL communication connection 122 to a
public telephone switched network (PSTN). In addition,
prepositioning can utilize a broadband connection 122 during
off-peak hours to avoid or mitigate impacts to a vendor's other
uses of the communication bandwidth. It should be appreciated that
even high bandwidth connections such as a T1 line can be
sufficiently limited by various user demands or size of the content
to be considered a low band width communication channel 122 for the
purpose of receiving media content. Alternatively or in addition,
the download can be given priority after receipt of the selection
by the user 106.
[0035] The user 106 who is carrying the mobile device 102 can enter
a coverage area of a wireless access point 124 managed by the
vendor kiosk 116, such as being positioned in a retail
establishment or public area. Thus, without making a dedicated
effort to retrieve the selected media content, the mobile device
102 can exchange communications with the vendor kiosk 116, such as
receiving the updated catalog 120 reflecting the availability of
the prior selection. In response, in one aspect, the vendor kiosk
116 authenticates the user 106 with either locally or by
facilitating a pass through to the network controller 114 for
authentication. The vendor kiosk 116 transfers wirelessly at least
a portion of the selected media content, as depicted at 126, by a
wireless data packet coverage area 128, which can be dynamically
adjusted in size based on other queued requests or interference
from other APs (not depicted) and reported to the network control
device 114 for tracking transaction progress and billing/credit.
The wireless-capable mobile device 102 stores the received, at
least partial media content in device storage 130. The mobile
device 102 can provide download progress feedback to the user 106,
thereby allowing the user 106 to choose to remain within coverage
area 128 for a sufficient time to complete the download.
[0036] In the illustrative depiction, according to one aspect, the
user 106 leaves the coverage area 128 before completing the
download. In some implementations, the mobile device 102 not only
determines what portion remains to be downloaded at the next
opportunity, but can also provide the partial media content for
playback by the media player 104. At a subsequent time, an
opportunity arises for completing the download via a communication
channel 132, described below, that completes sending the remaining
portion of the media content, depicted at 134. When a network
communication opportunity exists, the mobile device 102, the
communication channel 132, or another vendor kiosk (not shown)
reports completion of the download and/or contributions of various
intermediaries so that appropriate billing and credits can be
awarded by a billing module 134 for participating in the content
delivery system 100. The network control device 114 can include a
network communication module 136 for interfacing to the vendor
kiosk 116 and directly or indirectly to other recipients such as
communication channel 132 and user interface 108.
[0037] The communication channel 132 can comprise another vendor
kiosk, another wireless capable mobile device that has previously
downloaded the media content as a subscriber, or an alternative
backhaul network utilized to complete media delivery. For example,
a smart cell phone can be both capable of 802.11n wireless access
as well as 2.sup.nd of 3.sup.rd generation cell phone
communication. The user 106 can have a previously established
preference or make affirmative selection to incur an additional
charge to complete download by the backhaul network. Alternatively
or in addition, to enhance quality of service, the network control
device 114 can initiate use of the backhaul network to culminate
the download transaction when a vendor kiosk 116 has not completed
the download. In one aspect, a determination threshold based upon
an elapsed time for the download or a threshold of a ratio of the
media content remaining to download can trigger the backhaul
download.
[0038] FIGS. 2 and 5-8 illustrate methodologies and/or flow
diagrams in accordance with the claimed subject matter. For
simplicity of explanation, the methodologies are depicted and
described as a series of acts. It is to be understood and
appreciated that the subject innovation is not limited by the acts
illustrated and/or by the order of acts. For example, acts can
occur in various orders and/or concurrently, and with other acts
not presented and described herein. Furthermore, not all
illustrated acts may be required to implement the methodologies in
accordance with the claimed subject matter. In addition, those
skilled in the art will understand and appreciate that the
methodologies could alternatively be represented as a series of
interrelated states via a state diagram or events. Additionally, it
should be further appreciated that the methodologies disclosed
hereinafter and throughout this specification are capable of being
stored on an article of manufacture to facilitate transporting and
transferring such methodologies to computers. The term article of
manufacture, as used herein, is intended to encompass a computer
program accessible from any computer-readable device, carrier, or
media.
[0039] With reference to FIG. 2, a methodology 150 for wirelessly
delivering media content is initiated by receiving a selection from
a media content catalog by a user via a user interface (block 152).
A user equipment (e.g., mobile communication device, converged
handheld computer, access terminal, smart phone, portable media
player, wireless-capable handheld game console, personal digital
assistant, etc.) requests and receives a first portion of the
selection from a wireless access point, which advantageously has
the content readily available in local storage (block 154).
Subsequently, the user equipment requests and receives the other
portion of the selection via a wireless communication channel
(block 156). This channel can be another access point managed by
the same vendor kiosk, another kiosk coverage area, a peer-to-peer
(P2P) transfer from another subscriber's PMP, a backhaul network,
or broadband home connection, etc. Participation in completing the
media content delivery is reported to the network controller in
order to credit intermediaries, providing an incentive for
expanding the coverage by the content delivery system, as well as
to confirm billing appropriate for the end user (block 158).
Gradations in billing based on partial downloads can reflect the
cost to the network and/or intermediaries of utilizing various
communication channels.
[0040] With reference to FIG. 3, a content delivery system 200
improves upon delivery of media content 202 over a communication
network 204 by utilizing a plurality of strategically placed vendor
kiosks 205, 206, 207 that have an economic incentive to service a
plurality of wireless-capable portable devices 208. It should be
appreciated that portable devices 208 can comprise a number of
types handheld or carried apparatus with a unitary or distributed
construction that perform a more dedicated function (e.g., solely
media player) or are a converged device having media player as one
function (e.g., smart phone). In the illustrative depiction, a
population of wireless-capable portable devices 208 are depicted as
including a personal media player (PMP) 210 carried by a user 212,
a wireless media storage device 213, and a converged handheld
computer 214. It should be appreciated with the benefit of the
present disclosure that for clarity a media player 210 is depicted
in a sequence, highlighting user interactions with a portable
device 208 that can immediately enjoy or utilize media content of
the communicated selection. However, aspects of a portable device
208 can encompass a wider range of capabilities, such as a handheld
or notebook computer (e.g., converged handheld computer 214) having
a media player 210 as one application. Alternatively, aspects of a
portable device 208 can be limited to capabilities of the
wirelessly capable media storage device 213 that takes advantage of
opportunities to economically download content for later playback
on another device.
[0041] The communication network 204 can provide communication
channels of varying data throughput, interoperability and coverage
areas. For example, portions of the communication network 204 can
comprise a public or private Internet 216, public telephone
switched network (PSTN) 218, and/or an over-the-air broadcast
carrier (e.g., unicast, multicast, one-way, two-way, WiMax,
cellular telephone, etc.), depicted as a backhaul network 220 for
media content distribution purposes. In the exemplary depiction,
the communication channel via the PTSN 218 to vendor kiosk 207 is
very economical, albeit slow, for downloading large media files and
provides an opportunity for prepositioning popular catalog
selections well in advance of a user 212 being in proximity.
[0042] A network controller 222 manages the content delivery system
200 by maintaining a subscriber record data structure 224 and
content pre-positioning tracking data structure 226 that is
reflected in updated catalogs. The central controller 222 relays
billing and credits to a billing service 228 and receives
advertisements 230 from advertisers 232 for merging or coupling in
some instances with delivered media content 202. A central operator
interface (I/F) 234 can provide human interaction/configuration of
central controller 222, operator assistance via the PTSN 218 with
users 212, or facilitating a user web input/output (I/O) service
236 for subscribing or for receiving selections. Web-enabled
portable devices 208, such as depicted at 238, can incorporate a
web I/O 238 for making selections. Media providers 240 that provide
access to the media content 202 can facilitate data rights
management (DRM) for end user access and use limitations on the
media content 202. It should be appreciated with the benefit of the
present disclosure that a delivery path for the content and the
delivery path for the data rights can differ from each other. For
example, the content can be delivered in advance from a kiosk while
the rights might be delivered via a generic access point once the
user deletes previous content. As another example, the content can
be delivered by a peer PMP and the rights can be delivered via a
network kiosk, etc.).
[0043] In an illustrative use case, the PMP 210 enters a coverage
area of the kiosk 206, which can be dynamically adjusted, resulting
in receiving a first portion of a selection, which can include user
indication as depicted at 242. The kiosk 206 can optimize queuing
of content to multiple portable device, such as depicted with
wirelessly capable media storage device 213 and and PMP 210. For
example, the kiosk 206 can complete delivery of media content one
at a time as one approach to queue optimization. Alternatively, if
sufficient bandwidth exists, simultaneous transmission to multiple
devices 210, 213 can occur, such as when the kiosk 206 has multiple
available channels. As another example, the kiosk can prioritize
transmissions for those with sufficient channel quality, excluding
those that would require significant redundant coding or
retransmissions for successful download. Upon leaving the coverage
area or shutdown of the PMP 210, a partial content transfer module
244 verifies the integrity of the partial transfer, prepares a
report to the network for the next opportunity to upload to a kiosk
205-207, and in some instances format the partial transfer for
playback. The kiosks 205-207 can determine that the PMP 210 has
left coverage area in one aspect by determining that data rate has
dropped below a certain threshold, that an unacceptably high error
rate, or by detected received power. Subsequently, the PMP 210
forms an ad hoc network with the other subscribing portable device
214 that is able to transfer another portion of the selection
previously downloaded or relayed from kiosk 206. Subsequently, the
PMP 210 completes the download from kiosk 207, which can be the
same device as a home kiosk 246 that archives or supplements the
downloaded selection from the PMP 210. The home kiosk 246 (e.g., a
set-top box, home computer, dedicated device, etc.) or the PMP 210,
in some aspects, can then stream or download the media content for
playback on a full-size display monitor 248. Assisting in the
distribution of media content can further entail uploading from a
portable device 208 to a vendor kiosk 206, such as the Referring
now to FIG. 4, an exemplary content delivery system 300 can utilize
a communication network 302 so that a network central controller
306 can manage delivery of media content to a vendor kiosk 308 for
wireless transmission to a subscriber's PMP 310. Although not
illustrated, network 302 can also include other communication
network components, such as a base station controller, a mobile
switching center, a position determination entity, a group
communications server, etc., operable to facilitate communications
and services provided to vendor kiosk 308 and other components.
Network 302 may be any private or public wireless or wired
communications network operating according to any known standard,
including Code Division Multiple Access (CDMA), cdmaOne, cdma2000,
Universal Mobile Telecommunication System (UMTS), Wideband CDMA,
Global System for Mobile Communications (GSM), and TIA/EIA-136,
WiMax, DSL, cable modem link.
[0044] A user web input/output (I/O) 312 enables changes to
subscription, review of billing/credits, transaction history,
catalog review and content selection, device configuration setup,
user preferences, etc. A central operator I/O 314 facilitates
supervision of the content delivery system 300 and customer
service, etc. The central controller 306 further comprises an
authentication server or module 316 for verifying subscriber
identity. A subscription validation module 318 cross references the
subscriber identity with access rights under a currently active
subscription. A media list management module 320 maintains data as
to available media content, their configuration (e.g., format,
compression), locations available, currency with regard to a
distributed content catalog, etc. A digital rights management
module 322 implements requisite data encryption, tracking and
reporting to satisfy contractual and statutory protections
necessary or desirable for media content. A File Transfer
Management to Access Point (FTM/AP) module 324 provides appropriate
protocols and tracking for downloading media content to kiosks 308.
In an exemplary embodiment, the FTM/AP can advantageously be robust
and platform independent or platform configurable so that the same
module can also be distributed to new vendor kiosks 308 for
wirelessly serving PMPs 310. A report generation/billing module 326
facilitates billing and customer relations functions. A user web
interface 328 interacts with the user web I/O 312.
[0045] The kiosk 308 can manage a plurality of access points (APs)
330, 332 for providing a desired coverage area. In an exemplary
implementation, the APs can utilize an 802.11n wireless protocol,
although it should be appreciated that various near field, personal
access network, wireless access network, wide area network, and
broadcast protocols can be used in various applications as desired
or appropriate. A network communication channel can be provided by
a network communication module 334 capable of data packet protocol
communication. Alternatively or in addition, a PSTN modem (e.g.,
DSL) 336 can provide an economical, albeit limited throughput,
connection. Unauthorized use of the wireless coverage area or the
network communication channel can be prevented by a security module
338.
[0046] Although the kiosk 308 could be wholly controlled from
another entity such as the central operator I/O 314, the kiosk 308
can advantageously include a vendor graphical user interface (GUI)
340 with input device 342 and an output device 344 for allowing the
vendor to adjust configurations, monitor transactions, review/alter
locally stored media content, manually adjust priority requests
from the network, initiate communications with the network, etc.
For example, an input device 342 can comprise a mechanism such as a
key, keypad and/or keyboard, a mouse, a touch-screen display, a
microphone, etc. In certain aspects, an input device 342 provides
for user input to interact with an application, or program or
module. Further, for example, an output device 344 may include
audio speaker, display, a haptic feedback mechanism, etc.
[0047] In some applications, the kiosk 308 comprises a public GUI
346 with an input device 348 and an output device 350 such as
described above. The public GUI 346 could be provided by the vendor
GUI 340 with a security lockout to limit available functions. The
public GUI 346 can provide additional interactivity, especially for
certain PMPs 310 that lack certain user interface features.
[0048] Further, kiosk 308 can include a computer platform, depicted
as an access point (AP) controller 352 that comprises a processor
354 and memory 356. Processor 354 controls the operation of kiosk
308 according to applications or programs or modules stored in
memory 356, which can comprise random access memory (RAM) 358 and
nonvolatile memory, depicted as network attached local storage 360.
The control functions may be implemented, for example, in a single
microprocessor, or in multiple microprocessors. Suitable
microprocessors may include general purpose and special purpose
microprocessors, state machines, as well as digital signal
processors. Further, for example, processor 354 may be an
application-specific integrated circuit (ASIC), or other chipset,
logic circuit, or other data processing device. Processor 354 or
other data processing device such as ASIC can execute an
application programming interface (API) layer that interfaces with
any resident applications, and/or programs and/or modules, such as
a content delivery system module 362, stored in memory 358.
[0049] Memory 356 represents all of the memory associated with
kiosk 308, and may include both random access memory (RAM) and
read-only memory (ROM), erasable ROM (EPROM), electronically
erasable ROM (EEPROM), flash cards, or any memory common to
computer platforms. Further, memory 356 may include one or more
flash memory cells, or may be any secondary or tertiary storage
device, such as magnetic media, optical media, tape, or soft or
hard disk. For example, computer program instructions and data
utilized in the operation of kiosk 308 may be stored in
non-volatile memory, such as EPROM, EEPROM, and/or flash memory.
Additionally, memory 356 may be implemented as discrete devices,
stacked devices, or may be integrated with processor 354. Memory
356 can also include areas partitioned into and designated for use
as temporary memory buffers, or for use by content delivery system
module 362.
[0050] The content delivery system module 362 can comprise modules
that perform various functions for the delivery of media content.
An authentication pass through module 364 passes through various
security protocol messages to the central controller 306.
Alternatively or in addition, the kiosk 308 can contain sufficient
capability to autonomous authenticate. A storage management module
366 maintains inventory of locally-stored media content 368,
transaction records 370, and clientele data 372 in network-attached
local storage 360. The content delivery system module 362 can
further comprise a data rights management/encryption module 374
that implements copyright/contractual protections to limit uses of
the media content 366. A file transfer management module 376
manages delivery of media content 368 to the PMP 310. A reporting
module 378 prepares transaction data for local stored transaction
records 370 or for communication to the central controller 306. A
wireless access configuration and beacon control module 380 manages
the plurality of APs 330, 332 and sets parameters for a beacon
signal to alert PMPs 310 as to the presence and direction of the
coverage area provided by the APs 330, 332. The beacon signal can
be a particular synchronization/broadcast channel capability of
another component used for data communications. Alternatively, a
dedicated radio frequency (RF) beacon 379 can be provided to
provide an extended range signal for enhancing the situational
awareness of a user in locating the coverage areas available.
[0051] In an exemplary aspect, the PMP 310 can comprise cellular
telephone. It should be understood with the benefit of the present
disclosure that the PMP 310 may include any computerized device
capable of receiving broadcast signals, such as a Personal Digital
Assistant (PDA), a satellite telephone, a palm computer, a Personal
Communication Services (PCS) device, a portable gaming or music
device, etc. In particular, the PMP 310 comprises a computing
platform, depicted as an access terminal (AT) controller 380 that
control request and receipt of media content from the kiosk 308.
This receipt can be made via a wireless communication interface
module 382 having a receiver 384 and transmitter 386. The PMP 310
can be a dual mode device capable of maintaining simultaneous
sessions, depicted by a second wireless communication interface
module 388 with receiver 390 and transmitter 392. The simultaneous
sessions can be to the same radio access technology or to different
radio access technologies. For example, the PMP 310 can be integral
to a smart phone capable of cellular communications and 802.11 data
communications. In an exemplary aspect, a portable power supply
(e.g., batteries, ultra-capacitors, fuel cell, solar panel,
motion-powered generator, etc.) 394 provides enhanced mobility.
Increased service life can be achieved by entering a sleep/wake
cycle with the wireless communication interface modules 382, 388 to
reduce power consumption.
[0052] The PMP 310 can advantageously sense or receive geographic
location information from a location module 396, depicted as being
responsive to global positioning system (GPS) satellites 397. It
should be noted, however, that location module 396 may alternately,
or in addition, be responsive to a terrestrial-based wireless
communication network, e.g. a CDMA network, where all or some
portion of position determination may be based on communications
with base stations, and/or where location determination
calculations are performed in whole or in part by network servers.
Alternatively or in addition, the location module 396 can comprise
an inertial platform that detects changes in location. A motion
sensor 398 can comprise an accelerometer or other transducer that
provides data for calculating acceleration, velocity and location
based on motion. The motion sensor 398 can also provide orientation
data for adjusting the display automatically for viewing angle. The
motion sensor 398 can also provide user interaction data to
determine when to actively seek connection to a kiosk 308 or to
alter the sleep/wake cycle. For example, when the PMP 310 is not
moving at all, a stationary condition can be determined making
checking for access to an AP 330, 332 unwarranted, perhaps
resulting in shutting down altogether or lengthening sleep periods.
Alternatively or in addition, the location module 396 can receive
direction finding/signal strength/node location information from a
network device (not shown) that determines the location of the PMP
310.
[0053] The AT controller 380 can be indirectly controlled in whole
or in part by a separate GUI (e.g., a home PC based synchronization
software). In the exemplary aspect, an integral GUI 400 with input
device 402 and an output device 404 allows the user to adjust
configurations, monitor transactions, review/alter locally stored
media content, playback content, make selections from a catalog of
media content, initiate communications with the network such as for
subscription updates, etc. In some aspects, these user inputs can
be made while out of range of a kiosk or other network connection.
For example, an input device 402 can comprise a mechanism such as a
key, keypad and/or keyboard, a mouse, a touch-screen display, a
microphone, etc. In certain aspects, an input device 402 provides
for user input to interact with an application, or program or
module. Further, for example, an output device 404 may include
audio speaker, display, a haptic feedback mechanism, etc.
[0054] The AT controller 380 that comprises a processor 406 and
memory 408. Processor 406 controls the operation of PMP 310
according to applications or programs or modules stored in memory
408, which can comprise random access memory (RAM) 410 and
nonvolatile memory, depicted as network attached local storage 412.
The control functions may be implemented, for example, in a single
microprocessor, or in multiple microprocessors. Suitable
microprocessors may include general purpose and special purpose
microprocessors, state machines, as well as digital signal
processors. Further, for example, processor 406 may be an
application-specific integrated circuit (ASIC), or other chipset,
logic circuit, or other data processing device. Processor 406 or
other data processing device such as ASIC can execute an operating
system/application programming interface (API) layer 413 that
interfaces with any resident applications, and/or programs and/or
modules, such as a content delivery system module 414, stored in
memory 410. API 413 can be a runtime environment executing on the
PMP 310. One such runtime environment is Binary Runtime Environment
for Wireless.RTM. (BREW.COPYRGT.) software developed by Qualcomm
Incorporated of San Diego, Calif. Other runtime environments may be
utilized that, for example, operate to control the execution of
applications or programs or modules on PMP 310.
[0055] Memory 408 represents all of the memory associated with
kiosk 308, and may include both random access memory (RAM) and
read-only memory (ROM), erasable ROM (EPROM), electronically
erasable ROM (EEPROM), flash cards, or any memory common to
computer platforms. Further, memory 408 may include one or more
flash memory cells, or may be any secondary or tertiary storage
device, such as magnetic media, optical media, tape, or soft or
hard disk. For example, computer program instructions and data
utilized in the operation of PMP 310 may be stored in non-volatile
memory, such as EPROM, EEPROM, and/or flash memory. Additionally,
memory 408 may be implemented as discrete devices, stacked devices,
or may be integrated with processor 406. Memory 408 can also
include areas partitioned into and designated for use as temporary
memory buffers, or for use by content delivery system module
414.
[0056] The content delivery system module 414 can comprise modules
that perform various functions for the delivery of media content.
An authentication client 416 communicates through the
authentication pass-through module 364 to the authentication server
416 of the central controller 306 using a subscription key 418
stored in local storage 412. A media content list management 420
tracks media selected for download as well as media content 422
partially or wholly received and stored in local storage 412. A
DRM/decryption module 424 utilizes appropriate keys to decrypt the
media content 422 for play or other authorized uses (e.g.,
streaming to an attached monitor). A file transfer management
module 426 assists in tracking receipt or transmission of media
content, including partial receipt/transmission. A content
consumption (e.g., player) module 428 provides playback on the
local user output device 402. A reporting module 430 prepares
transaction data for local logging and/or for reporting to the
central controller 306 for billing/crediting purposes. A wireless
access configuration/beacon module 432 configures wireless setup as
appropriate to communicate with the kiosk 308, a P2P to another PMP
310, or a broadcast signal from a backhaul network (not shown in
FIG. 4). It should be appreciated with the benefit of the present
disclosure that certain capabilities can be distributed or omitted
and that this depiction is exemplary. For example, user interface
features can be external and further can be remote. In some
aspects, the portable media player 310 is functionally achieved by
a portable wirelessly capable media storage device that is coupled
to an external display and controls. For example, a docking station
of a home media system (not shown) can access the stored media
content.
[0057] With reference to FIG. 5, a scenario 500 of content delivery
system (CDS) 502 illustrates how media content can be
nonobtrusively and economically delivered to a user's PMP (portable
device) 504. Prior to interaction with the (CDS) 502 by the user, a
vendor kiosk 506 can be distributing media content as depicted at
508 to a population of portable devices, depicted as a Clientele
PMP 510. These transactions result in a report as depicted at 512
to a CDS Central Controller 514 that passes on billing and
crediting information to a Billing Service 516, such as crediting
the vendor for serving as an intermediary and billing the clientele
for the media selected and received via the CDS 502. These
transactions can further be characterized, for example, for
determining what genres of media content are more profitable and/or
more requested, and at what locations. Although this determination
can be performed in whole or in part at various entities of the CDS
502, this characterization of clientele is depicted at 518 as
occurring at the KioskC506, which uses the results to pull
(reprioritize) content from the CDS central controller 514 as
depicted at 520.
[0058] It should be appreciated with the benefit of the present
disclosure that in some applications a content delivery system can
thus leverage APs characterizing a population of users in its
coverage area that is used to adjust content available for delivery
by the APs. For example, the APs can access a shared user profile
divulged by mobile devices. As another example, the APs can cross
reference an identifier for the mobile devices with a user profile
maintained at a network entity. Thus, when a kiosk or a particular
AP managed by a kiosk is detected as having a particular
demographic (e.g., 80% of users are male, aged 18-25), the content
pushed or pulled for the kiosk can be altered accordingly.
[0059] The user of the PMP 504 can access services from the CDS 502
via a user input/output (I/O) device 522. For example, the I/O
could be a graphical user interface, a human or automated telephone
interface, a web portal, a haptic interface, etc. Moreover, this
user I/O 522 can be integral to the PMP 504 or external (e.g., home
or office workstation). The user I/O 522 can configure as depicted
at 524 network subscription information, configure technical or
preferential settings for network communications, kiosk
communications, or peer-to-peer (P2P) communications. For example,
the user may prefer not to consume battery power in uploading
content to the kiosk or to another subscriber. Otherwise, the user
may prefer to participate in media content delivery in order to
receive a credit. The user may or may not prefer to make location
or user identity automatically evident to kiosks or to other
subscriber devices. In order to be better served in content
prepositioned for download, the user may prefer to share
demographic information that can explicitly identify content of
interest or locations frequented. The user I/O 522 can also make
selections in accordance with the subscription to have media
content downloaded, such as selected from a media list catalog.
These subscriptions/demographic information/content selections are
transmitted from the user I/O 522 as depicted at 526 to the CDS
central controller 514, which can utilize a communication channel
such as an Internet connection, PTSN, mail-in form, etc. The CDS
central controller 514 in turn updates the user profile accordingly
as depicted at 528.
[0060] The user PMP 504 can be sensing or causing a location report
to be generated as depicted at 530. For example, a cellular, Short
Message Service (SMS), an 802.11 access point, etc. can sense a
beacon from the PMP 504. Such location information can be gathered
when no media content selections are pending for download for the
purposes of characterization a user specifically or a demographic
profile for clientele in general for a particular kiosk location.
The location report can be determined by the receiving entity,
depicted as a proximate vendor kiosk A 532 as merely being within
the coverage area. Alternatively or in addition, the location
report can be based upon geographic coordinates divulged by the PMP
504, especially for communication modalities have an inherently
large coverage area (e.g., WiMax). In response, the kiosk A
authenticates the user's PMP 504 at 534, either autonomously or by
communicating with a remote network such as the CDS Central 514,
and reports the impending arrival for a beacon of greater range
than data communication range. Alternatively or in addition, the
kiosk A 532 collects such information for periodic reporting to the
CDS central controller 514.
[0061] In some implementations or for certain kiosks such as kiosk
A 532, a high bandwidth connection from the CDS central controller
514 can exist. In this instance, the CDS central controller 514 can
be monitoring user profile as depicted at 536, including pending
selection downloads and location tracking. Sufficient time can
exist for the CDS central controller 514 to identify content to
push to the kiosk 532 as depicted at 538. The kiosk A 532
distributes a portion of the selected media content as depicted at
540 to the PMP 504. In some instances Connection between PMP 504
and kiosk A 532 terminates before full download of the selected
content, such as due to insufficient time, the kiosk 532 not having
a full copy of the media content in time, powering down of either
device, etc. In response, the kiosk A 532 reports partial
distribution to the CDS central controller 514 as depicted at 542,
which responds in turn by sending a credit report to billing
service 516 as depicted at 544.
[0062] The PMP 504 can enter a low power discovery mode as depicted
at 545 when transitioning between coverage areas. Radio Frequency
(RF) transceiver circuitry can be intermittently activated to
discover and acquire a kiosk 532. In addition, a low power state
can be used when in a coverage area between downlink and uplink
slot allocations. Alternatively or in addition, automatic or
manually set power saving mode can be entered into to extend
service life, such as when the user has not made a pending
selection awaiting for download or when a power supply state
reaches a certain low level.
[0063] In some implementations or for certain kiosks such as a
kiosk B 546, a low bandwidth communication channel exists for
receiving media content from the CDS central controller 514. For
example, the channel is a PTSN connection. As another example, the
channel is heavily utilized for other purposes leaving a small
allocation to such media downloads. The CDS central controller 514
can perform a location prediction process as depicted 548, which
can entail characterization a general population that frequents a
kiosk location or can target a particular user that is predicted by
past behavior or based upon a current trajectory to be within the
coverage area of kiosk B 546. With this prediction, the CDS central
controller 514 can push media content in advance to the kiosk B 546
as depicted at 550. Media content can also be received by the kiosk
546 from a Clientele PMP 510 that volunteers to upload when
visiting the coverage area of kiosk 546 as depicted at 551. For
example, the Clientele PMP 510 could receive certain credits from
the CDS central controller 514 in order to being willing to share
stored content. Subsequently, PMP 504 enters the coverage area and
receives a distribution of a further portion of the content as
depicted at 552, which might terminate before completion. In
response, the kiosk B 546 makes a report at some point to the CDS
central controller 514 regarding the partial distribution at 554,
which in turn makes a credit report at 556 to the billing service
516. The PMP 504 stores the download stop point to support the
process of resuming download upon the next visit of a Kiosk.
[0064] Subsequently, the user's PMP 504 comes within P2P range of
the clientele PMP 510 that has previously received the media
content as depicted back at 508. Alternatively, clientele PMP 510
can serve as an intermediary node in an ad hoc network to extend
the range of the kiosk C 506. The PMPs 504, 510 share content lists
including selections desired and content available for delivery as
depicted at 558. In response to a request to complete delivery of
the selected media content, the clientele PMP 510 transmits the
remaining portion of the selection to the user's PMP 504 as
depicted at 560. The kiosk C 506 can be delivering or receiving
media content from other devices simultaneously or sequentially, as
depicted at 561.
[0065] The kiosk C 506 can have additional selections that are
locally available that are advertised peer-to-peer to the user's
PMP 504, for example an updated catalog reflecting annotations for
what is locally available can be provided as depicted at 562. When
the PMP 510 is within network communication, a report of completed
delivery of the selected media content is made, such as to kiosk C
506 as depicted at 564 that is relayed to the CDS central
controller 514, which in turn generates a bill/credit report as
depicted at 566 that can credit clientele PMP 510 for assisting in
the delivery of the media content. With the media content
delivered, the user's PMP 504 can play the media content as
depicted at 568, which can be an integral player or an external
device.
[0066] With reference to FIG. 6, an exemplary methodology 600 is
illustrated for a mobile device (e.g., PMP) to participate in a
content delivery system (CDS). Preferences are established as
depicted at 602, which can be dictated by device limitations,
download time trade-offs with image compression quality, user
preferences, subscription rates for bandwidth consumed, etc. In
block 604, the mobile device can receive information pertaining to
user preferences, CDS authentication, subscription keys, etc.,
especially in instances where services are established wholly or in
part via another communication channel, such as a home
workstation.
[0067] In block 606, a determination is made as to whether movement
of the mobile device is sensed. If so, sleep cycle (block 608) can
be adjusted for detecting a kiosk or similar access point or access
node for requesting and receiving media content. In some aspects,
the mobile device tracks its own location for reporting or internal
use (block 610). For example, the mobile device can remember past
sessions or have a location cross reference that enable a
determination that a kiosk coverage area is approach (block 612).
If so, the sleep cycle can also be adjusted (block 614) or beacon
initiated to expedite session initiation. The beacon for example
can be a longer range but limited data rate control signal for
negotiating session parameters so that the data transmission makes
efficient use of a short duration of time within range for full
data communication.
[0068] In an illustrative implementation, a power saving mode of
the mobile device thus includes waking up at predetermined time,
which can comprise a synchronized time for avoiding collisions or
missing a beacon signal. Alternatively, one party such as the AP
provides a carrier (beacon) signal of sufficient duration and
repetition that a relatively short waking period by the mobile
device suffices for listening for coverage areas. As a further
alternative, the AP can have a sufficiently long listening period
(e.g., continuously) that a very brief beacon signal from the
mobile device during a waking period is sufficient for locating,
identifying or synchronizing to the sleep cycle of the mobile
device for the AP to initiate a communication session.
[0069] In block 616, a determination is made as to whether a
wireless AP is available. If so, authentication occurs in block
618. The CDS network entity can be updated on any selection
requests or fulfillment that were made on the mobile device while
out of network communication (block 620). The mobile device can
receive at least a portion of requested content that is cached or
stored by the wireless AP (kiosk) in block 622. If in block 624 the
kiosk has requested content from the mobile device, then in block
626 the requested content can be uploaded.
[0070] If at block 616 a kiosk wireless AP was not available, a
further determination can be made at block 628 whether a P2P
wireless connection is possible to another subscriber mobile device
or to an ad hoc network that has a node for a kiosk. If so, list of
available content can be exchanged (block 630) and requests for and
delivery of at least a portion of priority content can be made
(block 632).
[0071] If at block 628 no P2P was available, then location can be
updated (block 634), beacon settings updated (block 636) and sleep
cycle adjusted or complied with (block 638), with processing
returning to block 606 for continued monitoring.
[0072] Before or after full receipt of selected media content, the
mobile device catalogs in block 640 the content received, including
verifying data integrity and applicability of DRM decryption keys
for playback. Participation of various entities in the delivery can
be logged for credit/billing purposes. In block 642, for instances
of partial delivery, the content that is received can be merged
into a form suitable for playback in block 644, which can entail
concatenating and decrypting. In some aspects, in block 646 a
determination is made as to whether a home network connection is
available, which if so enables archiving content at block 648 for
playback on external devices or protecting against data loss.
[0073] With reference to FIG. 7, an exemplary methodology 700 is
illustrated for a kiosk/wireless access point to participate in a
content delivery system. Remotely or at the kiosk, a
characterization of clientele at a location can be determined, such
as by receiving demographic information from the users, analyzing
content transactions, manually input characteristics from anecdotal
experience or user requests, etc., in block 702. The kiosk can pull
media content for expected future clientele (block 704).
[0074] The kiosk can sense and report clientele within the coverage
area (block 706). For example, the number of nonparticipating
wireless-capable mobile devices can yield marketing data as to the
effectiveness of subscription campaigns. Presence of a particular
device identifier can be used to deduce a pattern of behavior,
whether a subscriber or not. Subscribers who are sensed but who
have not made a selection for media content can identify
opportunities for further advertising to the subscribers.
[0075] In block 708, the kiosk receives media pushed from the
network for an expected mobile device. For example, the trajectory
of the mobile device has been predicted based on recent encounters
with other access points or the behavior indicates impending
arrival within a time frame suitable for prepositioning media
content.
[0076] In block 710, the kiosk maintains ad hoc network connection
to distant devices as well as maintaining an AP wireless network to
deliver advertisements and selected media content. In block 712, in
addition to advertising to subscribers, the kiosk can
advantageously transmit an advertisement to wireless capable
devices that are not yet subscribers regarding the available media
content cached for immediate delivery.
[0077] In block 714, a determination is made as to whether a mobile
device has made a request for media content. If so, the mobile
device is authenticated in block 716. This authentication could be
made offline based on a local subscriber database or made online by
coordinating with the network CDS (block 718). Distribution among a
plurality of mobile devices is managed by queuing transmission
(block 719). Optimal queuing can be achieved in one aspect by
transferring at a reasonably maximum rate in which a first
requester can receive content, giving remaining bandwidth or
awaiting completion of transmission before downloading content to a
subsequent requester. Such optimization can be based at least in
part upon link quality and channel bandwidth limitations to each
mobile device. Queuing can also ration available air link bandwidth
by satisfying a single request from each mobile device in turn
before fulfilling a second request from one of the mobile devices.
Optimizing transmission can also take into consideration link
quality with each mobile device. For example, certain devices may
be given a lower priority or be ignored if the link quality is low
so that an overall successful data delivery rate is achieved. In
response to the request, in block 720 at least a portion of the
identified (selected) content is transmitted to the mobile device.
This transmission can be coordinated amongst a number of access
points controlled by the kiosk in block 720 to extend the session
continuity over a coverage area. A determination is made in block
722 whether the mobile device contains stored media content that is
desired by the kiosk. If so, a request is made in block 724 and the
upload is received in block 726. In some instances, the mobile
device could refuse in order to preserve battery power. In block
728, the communication is lost. At least an approximation of the
amount of media content transmitted for delivery is reported for
referral credit in block 724. Thus, it should be appreciated with
the benefit of the present disclosure that the kiosk benefits from
receiving media content by one or more types of transfers,
described above as being pushed or pulled with regard to the
network CDS or being uploaded from a mobile device.
[0078] With reference to FIG. 8, an exemplary methodology 800 is
illustrated for a network central controller to participate in a
content delivery system. In block 802, a subscriber database is
maintained, including those participating as mobile device for
receiving media content as end users as well as kiosk vendors who
act as intermediaries. In block 804, location reports about mobile
devices are tracked and updated. In block 806, the content
downloads arc queued for kiosks based upon requests by the kiosks,
pass-through requests from individual mobile devices,
characterization of past transactions, or predictions based upon
demographic data for a particular kiosk location. In block 808,
analysis of high traffic areas can identify locations that have
potential for another vendor kiosk to expand the coverage area of
the CDS as well as generating vendor revenue to warrant the
infrastructure increase. In block 810, a determination is made as
to whether a particular transaction is overdue for completion. If
so, the network can schedule a backhaul network transmission to the
mobile device or prioritize a download to kiosk queue to satisfy
the delivery (block 812). Periodically, received transaction
reports can be used to credit vendors and P2P deliveries to a kiosk
or to a subscribing mobile device (block 816). In addition, the
mobile device can be billed for downloads of the media content
(block 818).
[0079] What has been described above includes examples of the
various aspects. It is, of course, not possible to describe every
conceivable combination of components or methodologies for purposes
of describing the various aspects, but one of ordinary skill in the
art may recognize that many further combinations and permutations
are possible. Accordingly, the subject specification intended to
embrace all such alterations, modifications, and variations that
fall within the spirit and scope of the appended claims.
[0080] As used in this application, the terms "component",
"module", "system", and the like are intended to refer to a
computer-related entity, either hardware, a combination of hardware
and software, software, or software in execution. For example, a
component may be, but is not limited to being, a process running on
a processor, a processor, an object, an executable, a thread of
execution, a program, and/or a computer. By way of illustration,
both an application running on a server and the server can be a
component. One or more components may reside within a process
and/or thread of execution and a component may be localized on one
computer and/or distributed between two or more computers.
[0081] The word "exemplary" is used herein to mean serving as an
example, instance, or illustration. Any aspect or design described
herein as "exemplary" is not necessarily to be construed as
preferred or advantageous over other aspects or designs. [0081] In
particular and in regard to the various functions performed by the
above described components, devices, circuits, systems and the
like, the terms (including a reference to a "means") used to
describe such components are intended to correspond, unless
otherwise indicated, to any component which performs the specified
function of the described component (e.g., a functional
equivalent), even though not structurally equivalent to the
disclosed structure, which performs the function in the herein
illustrated exemplary aspects. In this regard, it will also be
recognized that the various aspects include a system as well as a
computer-readable medium having computer-executable instructions
for performing the acts and/or events of the various methods.
[0082] In addition, while a particular feature may have been
disclosed with respect to only one of several implementations, such
feature may be combined with one or more other features of the
other implementations as may be desired and advantageous for any
given or particular application. To the extent that the terms
"includes," and "including" and variants thereof are used in either
the detailed description or the claims, these terms are intended to
be inclusive in a manner similar to the term "comprising."
Furthermore, the term "or" as used in either the detailed
description of the claims is meant to be a "non-exclusive or".
[0083] Furthermore, as will be appreciated, various portions of the
disclosed systems and methods may include or consist of artificial
intelligence, machine learning, or knowledge or rule based
components, sub-components, processes, means, methodologies, or
mechanisms (e.g., support vector machines, neural networks, expert
systems, Bayesian belief networks, fuzzy logic, data fusion
engines, classifiers . . . ). Such components, inter alia, can
automate certain mechanisms or processes performed thereby to make
portions of the systems and methods more adaptive as well as
efficient and intelligent.
[0084] In view of the exemplary systems described supra,
methodologies that may be implemented in accordance with the
disclosed subject matter have been described with reference to
several flow diagrams. While for purposes of simplicity of
explanation, the methodologies are shown and described as a series
of blocks, it is to be understood and appreciated that the claimed
subject matter is not limited by the order of the blocks, as some
blocks may occur in different orders and/or concurrently with other
blocks from what is depicted and described herein. Moreover, not
all illustrated blocks may be required to implement the
methodologies described herein. Additionally, it should be further
appreciated that the methodologies disclosed herein are capable of
being stored on an article of manufacture to facilitate
transporting and transferring such methodologies to computers. The
term article of manufacture, as used herein, is intended to
encompass a computer program accessible from any computer-readable
device, carrier, or media.
[0085] Furthermore, the one or more versions may be implemented as
a method, apparatus, or article of manufacture using standard
programming and/or engineering techniques to produce software,
firmware, hardware, or any combination thereof to control a
computer to implement the disclosed aspects. The term "article of
manufacture" (or alternatively, "computer program product") as used
herein is intended to encompass a computer program accessible from
any computer-readable device, carrier, or media. For example,
computer readable media can include but are not limited to magnetic
storage devices (e.g., hard disk, floppy disk, magnetic strips . .
. ), optical disks (e.g., compact disk (CD), digital versatile disk
(DVD) . . . ), smart cards, and flash memory devices (e.g., card,
stick). Additionally it should be appreciated that a carrier wave
can be employed to carry computer-readable electronic data such as
those used in transmitting and receiving electronic mail or in
accessing a network such as the Internet or a local area network
(LAN). Of course, those skilled in the art will recognize many
modifications may be made to this configuration without departing
from the scope of the disclosed aspects.
[0086] The various illustrative logics, logical blocks, modules,
and circuits described in connection with the embodiments disclosed
herein may be implemented or performed with a general purpose
processor, a digital signal processor (DSP), an application
specific integrated circuit (ASIC), a field programmable gate array
(FPGA) or other programmable logic device, discrete gate or
transistor logic, discrete hardware components, or any combination
thereof designed to perform the functions described herein. A
general-purpose processor may be a microprocessor, but, in the
alternative, the processor may be any conventional processor,
controller, microcontroller, or state machine. A processor may also
be implemented as a combination of computing devices, e.g., a
combination of a DSP and a microprocessor, a plurality of
microprocessors, one or more microprocessors in conjunction with a
DSP core, or any other such configuration. Additionally, at least
one processor may comprise one or more modules operable to perform
one or more of the steps and/or actions described above.
[0087] Further, the steps and/or actions of a method or algorithm
described in connection with the aspects disclosed herein may be
embodied directly in hardware, in a software module executed by a
processor, or in a combination of the two. A software module may
reside in RAM memory, flash memory, ROM memory, EPROM memory,
EEPROM memory, registers, a hard disk, a removable disk, a CD-ROM,
or any other form of storage medium known in the art. An exemplary
storage medium may be coupled to the processor, such that the
processor can read information from, and write information to, the
storage medium. In the alternative, the storage medium may be
integral to the processor. Further, in some aspects, the processor
and the storage medium may reside in an ASIC. Additionally, the
ASIC may reside in a user terminal. In the alternative, the
processor and the storage medium may reside as discrete components
in a user terminal. Additionally, in some aspects, the steps and/or
actions of a method or algorithm may reside as one or any
combination or set of codes and/or instructions on a machine
readable medium and/or computer readable medium, which may be
incorporated into a computer program product.
[0088] It should be appreciated that any patent, publication, or
other disclosure material, in whole or in part, that is said to be
incorporated by reference herein is incorporated herein only to the
extent that the incorporated material does not conflict with
existing definitions, statements, or other disclosure material set
forth in this disclosure. As such, and to the extent necessary, the
disclosure as explicitly set forth herein supersedes any
conflicting material incorporated herein by reference. Any
material, or portion thereof, that is said to be incorporated by
reference herein, but which conflicts with existing definitions,
statements, or other disclosure material set forth herein, will
only be incorporated to the extent that no conflict arises between
that incorporated material and the existing disclosure
material.
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