U.S. patent application number 10/425124 was filed with the patent office on 2003-11-13 for enhanced companion digital organizer for a cellular phone device.
This patent application is currently assigned to Starfish Software, Inc.. Invention is credited to Bodnar, Eric O., Kahn, Philippe R., Kirani, Shekhar.
Application Number | 20030211864 10/425124 |
Document ID | / |
Family ID | 29554572 |
Filed Date | 2003-11-13 |
United States Patent
Application |
20030211864 |
Kind Code |
A1 |
Bodnar, Eric O. ; et
al. |
November 13, 2003 |
Enhanced companion digital organizer for a cellular phone
device
Abstract
An enhanced "Camel-back" or "Companion" Digital Organizer (CDO)
is described that is designed to interface to a cellular telephone.
The CDO is preferably implemented as an add-on component which can
be easily attached and detached from a phone by a user and, once in
place, can dramatically enhance the phone's functionality by
converting the phone into a "smart" phone. Exemplary features of
the CDO include an ability for the user to initiate a voice call on
the phone from the CDO. Preferably, the user may initiate the voice
call from any of multiple modules of the user's data, and not
merely from a phone-book module. The CDO is also capable of
stand-alone use as a personal organizer device, apart from the
phone. The CDO preferably includes a docking unit that removably
mates to particular model(s) of phones, and a main unit that
removably docks to the docking unit. The docking unit preferably
includes substantially all phone-model-specific geometries and
features to thereby allow the main unit to be configured for
stand-alone use as an organizer with few compromises made to
accommodate specific model(s) of phones. Furthermore, the same main
unit is suitable for use with multiple docking units that are
respectively adapted for different models of phones. Note that some
phones have an "automatic hang-up" feature in which the phone
unilaterally hangs up a phone call that was initiated by an
external device (e.g., a modem or the CDO) upon detaching of the
device by the user. For such phones, the docking unit remains
attached to the phone during a call initiated by the user via the
CDO, even if the user should detach the main unit for stand-alone
use as an organizer. The still-attached docking unit contains
sufficient circuitry and physical features to prevent automatic
hang-up. The main unit includes many features such as a choice of
both left- and right-handed modes and the capability for handling
electronic mail, remote browsing, remote synchronization, caller
identification, and the like.
Inventors: |
Bodnar, Eric O.; (Santa
Cruz, CA) ; Kirani, Shekhar; (Capitola, CA) ;
Kahn, Philippe R.; (Scotts Valley, CA) |
Correspondence
Address: |
MOTOROLA INC
600 NORTH US HIGHWAY 45
LIBERTYVILLE
IL
60048-5343
US
|
Assignee: |
Starfish Software, Inc.
|
Family ID: |
29554572 |
Appl. No.: |
10/425124 |
Filed: |
April 28, 2003 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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10425124 |
Apr 28, 2003 |
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09369812 |
Aug 6, 1999 |
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09369812 |
Aug 6, 1999 |
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09071748 |
May 1, 1998 |
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09369812 |
Aug 6, 1999 |
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09071732 |
May 1, 1998 |
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6505055 |
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09369812 |
Aug 6, 1999 |
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09098634 |
Jun 16, 1998 |
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60097239 |
Aug 20, 1998 |
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60107269 |
Nov 4, 1998 |
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60107151 |
Nov 4, 1998 |
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Current U.S.
Class: |
455/556.1 ;
455/74 |
Current CPC
Class: |
H04M 1/7243 20210101;
H04M 1/72445 20210101; H04M 1/2757 20200101; H04M 1/0254 20130101;
H04M 1/72409 20210101; H04M 1/0281 20130101 |
Class at
Publication: |
455/556.1 ;
455/74 |
International
Class: |
H04B 001/40 |
Claims
What is claimed is:
1. A portable electronic organizer for independent operation and
for operation with a portable telephone, the organizer comprising:
a portable docking unit configured to removably mate to the
telephone; and a portable main unit configured to removably dock to
the docking unit, wherein, when the main unit is docked to the
docking unit and the docking unit is mated to the telephone, the
main unit is coupled to the telephone, the main unit comprising: a
memory configured to store user data; and a processor coupled to
the memory; and logic configured for the electronic organizer to
initiate a voice telephone call over the telephone in response to
user input related to the user data.
2. The portable electronic organizer according to claim 1 wherein
the user input related to the user data comprises a command to dial
that is invoked by a user in the course of selective viewing by the
user of the user data stored in the memory.
3. The portable electronic organizer according to claim 1 wherein
the main unit is configured to be removable during the telephone
call for handheld use by the user during a remainder of the
telephone call, wherein the telephone call was initiated by the
main unit in response to user input.
4. The portable electronic organizer according to claim 3 wherein
the main unit is configured to be operable by a hand holding the
main unit to thereby leave another hand free to hold the telephone
at ear-side during the remainder of the telephone call.
5. The portable electronic organizer according to claim 1 wherein:
the telephone includes a communication port through which the main
unit communicates with the telephone, the telephone is configured
to terminate a telephone call that involves the communication port
in response to detecting that the communication port is no longer
being actively used; and the docking unit includes a module
configured to prevent the telephone from detecting that the
communication port is no longer being actively used, at least after
the main unit is removed from the docking unit during a call that
involves the main unit and the communication port.
6. The portable electronic organizer according to claim 5 wherein
the module of the docking unit includes a circuit configured to
send signals to the communication port, at least after the main
unit is removed from the docking unit during a call that was
initiated by the main unit, to prevent the telephone from
automatically terminating the call that was initiated by the main
unit.
7. The portable electronic organizer according to claim 6 wherein:
the telephone is configured to monitor communications via the
communication port to detect a reduction of the communications; and
the circuit is configured to occasionally send the signals to the
communication port to maintain the communications at least after
the main unit is removed from the docking unit during a call that
involves the main unit and the communication port.
8. The portable electronic organizer according to claim 6 wherein:
the telephone is configured to occasionally send, via the
communication port, requests for acknowledgment for detecting
whether the communication port is no longer being actively used;
and the circuit is configured to respond to the requests by sending
the signals to the communication port as acknowledgment, at least
after the main unit is removed from the docking unit during a call
that involves the main unit and the communication port.
9. The portable electronic organizer according to claim 1 wherein:
the telephone is hereinafter referred to as the first telephone;
the docking unit is hereinafter referred to as the first docking
unit; the main unit is also configured to removably dock with a
second docking unit that is designed for removably mating to a
second telephone; the second telephone is of a different model as
compared to the first telephone; and the first and second docking
units each includes model-specific features for interfacing with
the first and second telephones, respectively.
10. The portable electronic organizer according to claim 9 wherein:
the model-specific features include a physical protrusion; and the
main unit is contoured to be independent of the physical
protrusion, for ease of carrying and use.
11. The portable electronic organizer according to claim 1 wherein:
the docking unit includes model-specific features primarily
dictated by the geometry for removably mating with the telephone;
and the main unit is configured for ease of carrying and use
independently of the geometry for removably mating with the
telephone.
12. The portable electronic organizer according to claim 1 wherein
the docking unit is configured to removably mate to the telephone
at an attachment point associated with attachment of a battery for
the telephone.
13. The portable electronic organizer according to claim 12 wherein
the attachment point is suitable for attachment of an external
auxiliary battery for the telephone.
14. The portable electronic organizer according to claim 13 wherein
the telephone is a StarTAC.RTM. cellular telephone.
15. The portable electronic organizer according to claim 12
wherein: the attachment point is suitable for attachment of a cover
for an internal battery compartment; and the docking unit is
configured to include connectors for attaching to the attachment
point.
16. The portable electronic organizer according to claim 12 wherein
the docking unit includes a power supply configured to supply power
to the telephone.
17. The portable electronic organizer according to claim 1 wherein
the docking unit includes at least one physical connector for
mating the docking unit to the telephone, and the docking unit
includes a docking port for accepting the main unit, wherein the at
least one physical connector and the docking port are configured
such that, when the main unit is docked to the docking unit and the
docking unit is mated to the telephone, the organizer and the
telephone together can be physically handled as a substantially
rigid integrated combination.
18. The portable electronic organizer according to claim 1 wherein
at least a portion of the main unit is configured to have the form
factor of at least a portion of an interface card, for connectivity
with another device.
19. The portable electronic organizer according to claim 1 wherein:
the telephone includes a communication port; and the organizer
further comprises a pass-through communication port by which
another device may be coupled to the telephone when the organizer
is occupying the communication port of the telephone.
20. The portable electronic organizer according to claim 1 wherein:
the telephone can be worn on a holster; and the organizer is
configured to avoid interfering with the holster, whereby when the
docking unit is mated to the telephone, the telephone can still be
worn on the holster.
21. The portable electronic organizer according to claim 1 wherein
the electronic organizer includes a first power supply configured
to supply power to the processor for operating the main unit
independently of any power supply in the telephone.
22. The portable electronic organizer according to claim 28 wherein
the electronic organizer includes a second power supply configured
to supply power to the telephone.
23. The portable electronic organizer according to claim 29
wherein: the first and second power supplies are not a same power
supply; the main unit includes the first power supply; and the
docking unit includes the second power supply.
24. A portable electronic organizer for independent operation and
for operation with a portable telephone, the organizer comprising:
a memory for storing user data; a display coupled to the memory; a
communication coupler configured to interface with the portable
telephone; and a processor, coupled to the memory and the display,
configured to control, in response to user input, selective
conveying of the user data to the user and instructing of the
telephone via the communication coupler to initiate a phone call;
wherein the electronic organizer is capable of handheld use by a
user for selectively accessing the user data while physically
separate from the telephone, even during the phone call initiated
by the telephone in response to the instructing by the
processor.
25. The portable electronic organizer according to claim 24 wherein
the organizer is configured to be operable by a hand holding the
organizer to thereby leave another hand free to hold the telephone
at ear-side during the phone call.
26. The portable electronic organizer according to claim 24
wherein: the phone call is hereinafter referred as the
organizer-initiated phone call; the telephone is configured to
terminate a phone call involving an external device in response to
concluding that the external device is no longer using the phone
call; and the electronic organizer includes a module configured to
prevent the telephone from concluding that the electronic organizer
is no longer using the organizer-initiated phone call when the
electronic organizer is in handheld use by a user for selectively
accessing the user data during the organizer-initiated phone
call.
27. The portable electronic organizer according to claim 26 wherein
the module is configured to send signals via the communication
coupler, at least when the electronic organizer is in handheld use
by a user for selectively accessing the user data during the
organizer-initiated phone call, to prevent the telephone from
terminating the organizer-initiated phone call.
28. The portable electronic organizer according to claim 24 wherein
the portable telephone is a wireless cellular telephone.
29. The portable electronic organizer according to claim 24 wherein
the organizer is configured to store user data in the memory
including contact and schedule data.
30. The portable electronic organizer according to claim 24 wherein
the organizer includes a browser for accessing remote information
via the telephone.
31. The portable electronic organizer according to claim 24 wherein
the organizer includes a serial port for connecting with another
device for synchronizing user data stored in the memory with
corresponding user data in the other device.
32. The portable electronic organizer according to claim 24 wherein
the organizer is configured to handle electronic mail
communications communicated via the telephone.
33. The portable electronic organizer according to claim 24
wherein: the electronic organizer is configured to store user data
including a list of contacts; the organizer includes software
configured to instruct the processor to: accept
caller-identification information associated with an incoming phone
call; identify, in the list of contacts, a contact corresponding to
the caller-identification information; and convey the identified
corresponding contact to the user for the user to use in
determining whether to accept the incoming phone call.
34. The portable electronic organizer according to claim 24 further
comprising a microphone and speech recognition software for
accepting voice commands for operating the organizer.
35. A method for cooperatively using a portable phone and a
portable electronic organizer that has a display, the method
comprising: electively placing the portable electronic organizer
into proximity with the portable phone to enable communication;
displaying at the display first information comprising entries
having corresponding phone number information; receiving first
input that indicates a user request to dial a phone number
associated with a particular entry of the displayed entries;
transmitting a first command from the electronic organizer to the
phone for attempting to establish communication between the
electronic organizer and the phone; if a communication can be
established between the electronic organizer and the phone,
transmitting in response to the user request a second command, from
the electronic organizer to the phone, that instructs the phone to
dial the phone number to thereby establish a phone call; during the
established phone call, receiving second input indicating a user
request to use the electronic organizer to view second information;
and in response to the second input, while at least a portion of
the electronic organizer that includes the display is physically
uncoupled from the phone, displaying at the electronic organizer
the second information for viewing by the user while the user is
actively engaged in the established phone call.
36. The method of claim 35 wherein the step of placing the
electronic organizer into proximity with the phone comprises
physically attaching the electronic organizer to the phone.
37. The method of claim 36 further comprising physically uncoupling
the at least a portion of the electronic organizer from the phone
prior to the step of receiving the second input.
38. The method of claim 36 wherein the step of placing the
electronic organizer into proximity with the phone further
comprises making electrical contact between signal conductors, and
the step of transmitting the second command comprises transmitting
the second command across the signal conductors.
39. The method of claim 36, wherein the phone is a cellular phone
that accommodates a battery, and the step of physically attaching
the electronic organizer to the phone comprises attaching the
electronic organizer to the phone at a location intended for
attaching the battery.
40. The method of claim 36, wherein the phone is a cellular phone
that includes a battery compartment and a battery-compartment
cover, and the step of physically attaching the electronic
organizer to the phone comprises attaching the electronic organizer
to the phone at a location intended for attaching the
battery-compartment cover.
41. The method of claim 35 wherein the step of placing the
electronic organizer into proximity with the phone comprises
positioning the electronic organizer within about one meter of the
phone, and the step of transmitting the second command comprises
transmitting the second command wirelessly.
42. The method of claim 41 wherein the step of transmitting the
second command wirelessly comprises transmitting the second command
using infrared signals.
43. The method of claim 41 wherein the step of transmitting the
second command wirelessly comprises transmitting the second command
using radio-frequency signals.
44. The method of claim 35 wherein: the electronic organizer
includes a button; the method further comprises activating of the
button by a first hand of the user while a second hand of the user
is holding the phone at ear-side; and the step of receiving the
second input includes detecting the activating of the button.
45. The method of claim 35 wherein: the electronic organizer
includes a first module and a second module that are physically
separable from one another; and the step of placing the electronic
organizer into proximity with the phone comprises electively and
physically attaching the first module to the phone.
46. The method of claim 45 wherein the step of placing the
electronic organizer into proximity with the phone further
comprises electively and physically attaching the second module to
the first module.
47. The method of claim 46 wherein the step of placing the
electronic organizer into proximity with the phone further
comprises making electrical contact between signal conductors, and
the step of transmitting the second command comprises transmitting
the second command across the signal conductors toward the
phone.
48. The method of claim 47, wherein the phone is a cellular phone
that accommodates a battery, and the step of physically attaching
the first module to the phone comprises attaching the first module
to the phone at a location configured for attaching the
battery.
49. The method of claim 45. wherein the phone includes a
battery-compartment cover, and the step of physically attaching the
first module to the phone comprises attaching the first module to
the phone at a location configured for attaching the
battery-compartment cover.
50. The method of claim 35 wherein: the phone uses a first command
protocol; the second module uses a second command protocol; and the
method further comprises translating between the first and the
second protocols by the first module to facilitate communication
between the second module and the phone.
51. The method of claim 35 wherein the step of receiving the first
input comprises: receiving third input for highlighting the
particular entry of the entries of the first information; and
thereafter, receiving fourth input for indicating that the user
desires to call the phone number associated with the particular
entry; and wherein the first input includes the third input and the
fourth input.
52. The method of claim 35 wherein the electronic organizer
includes contact information and event information; and the second
information includes information from at least one member of the
set consisting of the contact information and the event
information.
Description
RELATED APPLICATIONS
[0001] The present application is related to, and claims the
benefit of priority from, the following commonly-owned U.S.
provisional patent applications, the disclosures of which are
hereby incorporated by reference in their entirety, including any
appendices or attachments thereof, for all purposes: Ser. No.
60/097,239, filed Aug. 20, 1998 and entitled ENHANCED CAMEL-BACK
DIGITAL ORGANIZER FOR A CELLULAR PHONE DEVICE; Ser. No. 60/107,269,
filed Nov. 4, 1998 and entitled COMPANION DIGITAL ORGANIZER FOR A
CELLULAR PHONE DEVICE; and Ser. No. 60/107,151, filed Nov. 4, 1998
and entitled MULTI-COMPONENT INTERFACE CARD DIGITAL ORGANIZER;
[0002] The present application is a continuation-in-part
application of and claims the benefit of priority from, the
following commonly-owned U.S. patent applications, the disclosures
of which are hereby incorporated by reference in their entirety,
including any appendices or attachments thereof, for all purposes:
Ser. No. 09/071,748, filed May 1, 1998 and entitled CAMEL-BACK
DIGITAL ORGANIZER FOR A CELLULAR PHONE DEVICE; Ser. No. 09/071,732,
filed May 1, 1998 and entitled CAMEL-BACK DIGITAL ORGANIZER AND
COMMUNICATION PROTOCOL FOR A CELLULAR PHONE DEVICE; and Ser. No.
09/098,634, filed Jun. 16, 1998 and entitled MULTI-COMPONENT
INTERFACE CARD ELECTRONIC ORGANIZER.
[0003] The present application is also related to the following
commonly-owned U.S. patent applications, the disclosures of which
are hereby incorporated by reference in their entirety, including
any appendices or attachments thereof, for all purposes: Ser. No.
09/187,007, filed Nov. 4, 1998 and entitled USER INTERFACE
METHODOLOGY SUPPORTING LIGHT DATA ENTRY FOR MICROPROCESSOR DEVICE
HAVING LIMITED USER INPUT; Ser. No. 08/905,463, filed Aug. 4, 1997
and entitled USER INTERFACE METHODOLOGY FOR MICROPROCESSOR DEVICE
HAVING LIMITED USER INPUT; Ser. No. 09/347,447, filed Jul. 3, 1999
and entitled SYSTEM AND METHODS FOR SYNCHRONIZING DATASETS USING
COOPERATION AMONG MULTIPLE SYNCHRONIZATION ENGINES; Ser. No.
09/311,781, filed May 13, 1999 and entitled SYSTEM AND METHODS FOR
SYNCHRONIZING DATASETS IN A NON-FIFO OR OTHERWISE DIFFICULT
COMMUNICATION ENVIRONMENT; Ser. No. 09/208,815, filed Dec. 8, 1998
and entitled SYSTEM AND METHODS FOR ROBUST SYNCHRONIZATION OF
DATASETS; Ser. No. 09/136,215, filed Aug. 18, 1998 and entitled
SYSTEM AND METHODS FOR SYNCHRONIZING TWO OR MORE DATASETS; and Ser.
No. 08/923,612, filed Sep. 4, 1997 and entitled SYSTEM AND METHODS
FOR SYNCHRONIZING INFORMATION AMONG DISPARATE DATASETS.
BACKGROUND OF THE INVENTION
[0004] The present invention relates generally to electronic
organizers and, more particularly, to apparatus and methods
providing integration of electronic organizers with cellular phone
devices.
[0005] With each passing day, there is ever increasing interest in
providing integrated solutions for connected information
appliances. Here, the general environment includes "appliances" in
the form of electronic devices such as cellular phones, pagers, and
battery-powered, hand-held devices (e.g., REX.TM., Palm Pilot.TM.
and Windows.TM. CE devices). Such a device, in typical use, is
occasionally connected to a desktop personal computer or PC, which
stores information for a user. Still further, the PC may be
connected to a server computer, which stores information important
to the user's business. What the user wants is an integrated
solution such that information of each device remains available for
use in other devices in a convenient, transparent manner.
[0006] The user's wish for integration of personal information
among devices is particularly noteworthy in connection with
cellular phones, given their tremendous popularity. Although
cellular phones are commonplace, a cellular phone user today finds
that his or her device is not well integrated with other electronic
devices. Consider, for instance, a user who maintains address-book
or "contacts" information on a hand-held device. Despite having
maintained extensive information about his or her contacts
electronically, the user is forced to manually re-enter information
into the cellular phone when placing a phone call. What the user
wants instead is the ability to make calls and look up addresses
and phone numbers, and even check schedules and send electronic
mail, from a single integrated solution. Yet to date, designers
have struggled over how to integrate disparate information--such as
calendaring, scheduling, and contact information--among disparate
devices.
[0007] What is needed is a solution which combines telephony with
personal information management in a single integrated hand-held
unit. Given the millions of cellular phones in service today, such
a solution should comprise a user-serviceable attachment allowing a
legacy phone to be upgraded to a "smart" phone without requiring a
change to the underlying phone equipment (i.e., in a manner which
maintains compatibility with legacy hardware) and without requiring
a complicated installation procedure.
[0008] More particularly, what is needed is such an integrated
solution that can enable a user to conveniently access information
in the user-serviceable attachment even during an existing phone
call and even on a phone (e.g., a legacy phone) that has "automatic
hang-up" logic which causes the phone to unilaterally terminate an
ongoing call if the logic believes that the phone is no longer
being used. What is also needed is an integrated solution that is
little encumbered during use or transport by model-specific
restrictions imposed by particular phone model(s) and that can
easily be used with multiple models of phones. In short, a solution
is needed that can accommodate and work with as many models of
phones as possible. Similarly, a solution is needed that can
accommodate as many users as possible. For example, what is needed
is a solution that is equally convenient for left-handed as well as
right-handed users to use. The present invention fulfills these and
other needs.
SUMMARY OF THE INVENTION
[0009] The present invention provides a Companion Digital Organizer
(CDO) or system, that is designed to interface with a cellular
phone to thereby provide integrated organizer/telephone
functionality. The CDO is preferably configured to interface with
the phone through an existing interface port (e.g., StarTaC.TM.
cellular port) in the phone. The CDO is preferably implemented as
an add-on component which can be easily attached and detached from
a phone by a customer and, once in place, can dramatically enhance
the phone functionality, converting the phone into a "smart" phone.
In the preferred embodiment, the CDO is configured to attach to a
cellular phone in the same manner as an auxiliary battery.
[0010] In an embodiment, the present invention includes a portable
electronic organizer for independent operation and for operation
with a portable telephone. The organizer includes a portable
docking unit, a portable main unit, and logic. The portable docking
unit is preferably configured to removably mate to the telephone.
The portable main unit is preferably configured to removably dock
to the docking unit. When the main unit is docked to the docking
unit and the docking unit is mated to the telephone, the main unit
is coupled to the telephone. The main unit includes a memory
configured to store user data and a processor coupled to the
memory. The logic is configured for the electronic organizer to
initiate a voice telephone call over the telephone in response to
user input related to the user data.
[0011] In an embodiment, the present invention includes a portable
electronic organizer for independent operation and for operation
with a portable telephone. The organizer includes a memory for
storing user data, a display coupled to the memory, a communication
coupler configured to interface with the portable telephone, and a
processor, coupled to the memory and the display, configured to
control, in response to user input, selective conveying of the user
data to the user and instructing of the telephone via the
communication coupler to initiate a phone call. The electronic
organizer is capable of handheld use by a user for selectively
accessing the user data while physically separate from the
telephone, even during the phone call initiated by the telephone in
response to the instructing by the processor.
BRIEF DESCRIPTION OF THE DRAWINGS
[0012] FIG. 1A illustrates a CDO in its environment according to an
embodiment of the present invention in profile view.
[0013] FIG. 1B illustrates the CDO of FIG. 1A in perspective
view.
[0014] FIGS. 2A and 2B illustrate a main unit of a CDO in a
right-handed mode and a left-handed mode, respectively, according
to an embodiment of the present invention.
[0015] FIG. 3A illustrates a CDO's docking unit that attaches to a
phone in the manner of a battery-compartment cover, according to an
embodiment of the present invention.
[0016] FIG. 3B illustrates a CDO's main unit being attached to the
docking unit of FIG. 3A.
DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT
[0017] The following description will largely focus on a digital
organizer which has as its target or host phone the popular
Motorola StarTAC.RTM. cellular phone. For this target phone, the
design of a docking unit of the digital organizer largely matches
the physical geometry of the StarTAC.RTM. cellular phone's
auxiliary battery. The design, construction, and operation taught
by the present invention are not limited, however, to StarTAC.RTM.
cellular phones but can be applied advantageously to other phones,
including ones of markedly different design and style. The
following description of exemplary embodiments is, therefore, for
the purpose of illustration and not limitation.
[0018] A. Introduction
[0019] Companion Digital Organizers ("CDOs"), which may also be
called Camel-back Digital Organizers ("CDOs"), were disclosed in
the above-incorporated, commonly-owned patent applications having
Ser. No. 09/071,732 (filed May 1, 1998), Ser. No. 09/071,748 (filed
May 1, 1998), and Ser. No. 09/098,634 (filed Jun. 16, 1998). As
described in those documents, an embodiment of the CDO is a
personal organizer device capable of stand-alone use that may be
removably mated to a cellular phone to thereby make the phone a
smart phone. For example, the CDO may store and selectively
display, for example, an address-and-phone book, a schedule, a
"to-do" list, a calendar, and more during stand-alone operation.
When mated to a phone, the CDO may, for example, permit the user to
navigate through his address-and-phone book to a particular contact
and easily initiate a phone call from the CDO on the phone.
Thereafter, the user may hold an ordinary voice phone conversation
over the initiated phone call on the phone.
[0020] One aspect of the CDO is that, not only is it suitable for
use with next-generation phones designed with the CDO in mind, the
CDO may also mate with existing "legacy" phones to add new life to
the legacy phones. To this end, the CDO may interface with a legacy
phone via the phone's existing communication port, according to the
phone's existing communication port protocol. Such an existing
communication port was typically originally intended primarily for
connection with a local computer modem coupled to a computer. In
such originally-intended use, the local computer modem can instruct
the phone to make (or receive) a phone call so that the local modem
can exchange data via the phone (e.g., via the phone's
communication port) to a remote party (e.g., a remote modem). In
such a scenario, once the local modem is disconnected from the
phone or turned off, the user most likely has no further use for
any ongoing phone call that involved the phone's communication
port.
[0021] Certain models of legacy cellular phones, for example,
certain models of Motorola, Inc.'s StarTAC.RTM. phones, have
built-in logic that automatically terminates a phone call involving
the communication port when the phone detects that whatever device
(e.g., local modem) was connected to the communication port for the
phone call has been unplugged from the port or is otherwise no
longer maintaining communication with the phone. Such built-in
phone logic may be understandable in the context of typical data
transfer phone calls involving a local modem coupled to a computer,
as described earlier. Such built-in logic makes less sense for
CDO-initiated voice phone calls, but is nevertheless generally not
a problem for the CDO user, as long as the CDO device remains
connected to the phone during a CDO-initiated phone call. However,
if the CDO user wishes to detach the CDO device during a
CDO-initiated phone call (for example, to look up his or her
schedule on the CDO) and continue to talk on such a legacy phone, a
problem may exist because the phone may terminate the phone call
upon detaching of the CDO. This undesirable behavior of the legacy
phone serves to negate an advantage of the basic CDO design, which
is that the CDO is capable of being held and operated in one hand
to leave the other hand free, for example, to hold the phone at
ear-side during an ongoing call that was initiated by the CDO.
(Motorola, Inc. is based in Schaumburg, Ill.)
[0022] Another potential usability issue with retrofitting a CDO
onto legacy phones is that available existing attachment points,
such as those for auxiliary batteries, may require model-specific
pins, hooks, protrusions, or other features that may interfere with
ergonomic use or carrying of the CDO. For example, protrusions may
snag on items in a purse or pocket, or be otherwise inconvenient.
The model-specific features may also hamper the CDO from being
easily attached to other phone model(s).
[0023] A CDO according to a preferred embodiment of the present
invention can enable a user to conveniently access the CDO for
ordinary use as an organizer even during an existing CDO-initiated
phone call and even on a phone (e.g., a legacy phone) having the
above-described "automatic hang-up" logic. The preferred CDO is
little encumbered during use or transport by model-specific
restrictions imposed by particular phone model(s) and can easily be
used with multiple models of phones. In short, the preferred CDO
can accommodate and work with as many models of target phones as
possible. Furthermore, the preferred CDO can accommodate as many
users as possible. For example, the preferred CDO is equally
convenient for left-handed as well as right-handed users to
use.
[0024] B. Device Hardware and Software
[0025] As will be further described, an enhanced CDO according to
an embodiment of the present invention includes a docking unit and
a detachable main unit. The docking unit and the main unit together
include the elements of a CDO that are described in the
incorporated, commonly-owned patent applications, e.g., the
applications having Ser. No. 09/071,732 (filed May 1, 1998), Ser.
No. 09/071,748 (filed May 1, 1998), and Ser. No. 60/107,269 (filed
Nov. 4, 1998). In particular, the docking unit and the main unit
together include a central processing unit (CPU), a memory, a
display, a user input (e.g., terse keyset), a serial port,
software, and couplers (e.g., physical and electrical) for mating
and interfacing the CDO to a host phone.
[0026] The (enhanced) CDO's software includes a device operating
system and organizer application(s), such as are described in the
incorporated, commonly-owned patent applications, e.g., the
applications having Ser. No. 09/187,007 (filed Nov. 4, 1998) and
Ser. No. 08/905,463 (filed Aug. 4, 1997). Preferably, the organizer
application(s) include a calendar/appointments module, an
address-book (phone-book) module, a task-list module, a memos
module, a world-clock module, and a preferences module. Preferably,
these modules include the features and capabilities as described in
the incorporated patent applications and additional features and
capabilities as described in the present document. Some features
and capabilities as described in the incorporated patent
application are found, for example, in the popular StarTAC.RTM.
clipOn Organizer and the REX PRO.TM. organizer. The StarTAC.RTM.
clipOn Organizer includes licensed technology from Starfish
Software, Inc. ("Starfish"), the present assignee, and is available
from Motorola, Inc. The REX PRO.TM. organizer (e.g., model REX PRO
5) includes licensed technology from Starfish, the present
assignee, and is available from Franklin Electronic Publishers of
Burlington, N.J. StarTAC is a registered trademark of Motorola,
Inc. REX and REX PRO are trademarks of Franklin Electronic
Publishers.
[0027] The docking unit and the main unit may also together include
the elements of a multi-component embodiment of the CDO, as
described in the incorporated, commonly-owned patent application
having Ser. No. 09/098,634 (filed Jun. 16, 1998) and Ser. No.
60/107,151 (filed Nov. 4, 1998). In particular, the main unit may
itself include two components: an outer component, for providing
the display and other bulky elements, and a detachable interface
component, for interfacing with other devices such as handheld or
notebook personal computers. The interface component preferably
includes memory (e.g., flash memory) and is preferably configured
to interface with the other devices according to a standard
interface (e.g., a CompactFlash.TM. PC-card interface), the
specifications of which are available from the CompactFlash
Association of Palo Alto, Calif. CompactFlash is a trademark of the
CompactFlash Association.
[0028] C. The Enhanced CDO Preferably Includes a Docking Unit and a
Main Unit
[0029] FIG. 1A illustrates an enhanced CDO in its environment
according to an embodiment of the present invention in profile
view. The enhanced CDO includes a docking unit 10 and a detachable
main unit 20, which together include the elements of a CDO as
described above. The environment of the enhanced CDO (hereinafter,
"CDO") includes a target phone 30, a communication connector 33
from another device (not shown), and a serial interface plug 37.
The CDO's docking unit 10 includes a communication connector 40, a
pass-through communication port 43, a "hand-holding" module 47,
connectors 50 and 53 for accepting the main unit 20 for docking,
and connectors 55 and 57 for removably (and rigidly) mating the
docking unit 10 to the target phone 30. The main unit 20 includes a
serial port 60 and user interface and other elements (e.g.,
display, input keys, buzzer, processor, battery, and the like) not
shown in FIG. 1A, which have all been described in the patent
applications incorporated by reference. The target phone may be a
legacy phone, for example, a Motorola StarTAC.RTM. cellular phone,
that was designed without the CDO in mind. The target phone
includes a communication port 70 (dashed lines). The serial
interface plug 37 may be an ordinary serial plug (e.g., a stereo
phono-style plug) as described in the patent applications
incorporated by reference. The serial interface plug 37 may
alternatively be a specialized serial plug that includes a serial
controller chip 73, for example a "Maxim" serial controller chip,
such that the specialized serial plug acts as a "cradle" for serial
communications; as described, for example, in the incorporated,
commonly-owned patent applications, for example, the application
having Ser. No. 09/098,634 (filed Jun. 16, 1998). (The specialized
serial plug may have more than only two contacts (e.g., six
contacts) with the serial port 60. Thus, the drawing of the serial
interface plug 37 in FIG. 1A is merely a schematic picture.)
[0030] D. The Docking Unit Mates to the Phone and Accepts the Main
Unit for Docking
[0031] As shown in FIG. 1A, the docking unit 10 is configured to be
detachably mated to the target phone. When the docking unit 10 is
mated to the target phone, the docking unit 10's communication
connector 40 (e.g., an electrical coupler) connects to (e.g.,
inserts into) the target phone's communication port 70. When the
main unit 20 is docked into the docking unit 10, and the docking
unit 10 is mated to the host phone 30, the user may initiate a
phone call from the CDO. The CDO's docking unit 10's pass-through
communication port 43 (dashed lines) is connected to the
communication connector 40 and is wired to act as an "extension
cord," so that, even when the CDO's docking unit 10 is mated to the
target phone, an external device (not shown) can still couple to
the target phone's communication port 70, via the connector 33 and
the pass-through communication port 43 of the docking unit 10,
without having to remove the docking unit 10 from the target phone
30. For circuit and signal protection, the pass-through
communication port 43 may be switched off (e.g., electrically
isolated) from the communication port 70 and from the CDO's
circuitry when the CDO is sending signals to the port 70, for
example, when the CDO is instructing the target phone 30 to begin a
phone call, or when the CDO has requested exclusive access to the
port 70.
[0032] The mechanism by which the docking unit 10 is mated to any
target phone depends on the design specification of the target
phone. For example, if the target phone is a StarTAC.RTM. cellular
phone, then the docking unit 10 would be configured to mate to the
target phone largely in the manner of the StarTAC.RTM. cellular
phone's standard auxiliary battery. In particular, the docking unit
10's connector 57 for mating to the target StarTAC.RTM. phone would
include a metal spring connector which grips the top (antenna end)
of the phone and which extends to allow the user to line up and
attach the docking unit 10's communication connector 40 to the
standard communication port at the bottom of the phone. Further,
the connector 55 for mating to the target phone would include two
plastic connectors (e.g., pegs) which fit into slots on the phone
and hold the docking unit 10 in place with tension being provided
by the spring connector 57.
[0033] Depending on the particular design specification of the
target phone, the communication connector 40 may include, for
example, about five electrical conductors, or the like, that make
contact with corresponding conductors in an interface port in the
target phone. The communication connector 40 may also be an
elastomeric or similar plastic-or-rubber-covered coupler, an
infrared or other type of wireless coupler (e.g., a radio-frequency
transmitter) for wirelessly communicating with the target phone
(e.g., within a distance of about a meter), or the like, according
to the particular design specification of the target phone.
(Elastomeric couplers are further discussed, for example, in
connection with the Miniature Card interface specification of Intel
Corporation of Santa Clara, Calif., which interface specification
is further discussed, for example, in the incorporated,
commonly-owned patent application having Ser. No. 09/098,634 (filed
Jun. 16, 1998). The mating of a CDO to target phones, including the
StarTAC.RTM. cellular phone, is further described in the
incorporated patent application having Ser. No. 09/071,732 (filed
May 1, 1998).
[0034] E. The Docking Unit Prevents Automatic Hang-ups and Enhances
Portability
[0035] 1. Overview
[0036] The hand-holding module 47 is a circuit or other element or
feature that tells the target phone that the communication port 70
is still being used, so that the target phone 30's control logic
does not automatically terminate a phone call initiated via the
communication port 70 by the CDO, even if the CDO's main unit 20 is
detached during such a phone call. Instead, the user would
terminate the phone call in a usual manner, as if the phone call
were an ordinary phone call initiated by the user via manual
dialing. The hand-holding module 47, if it requires power for
operation, may steal power from the host phone's communication
port, or may be powered by a power supply (e.g., battery) on the
docking unit 10.
[0037] 2. Example Embodiment: Docking Unit Provides Acknowledgment
Signals
[0038] The precise structure or programming of the hand-holding
module 47 depends on the specification of the target phone. For
example, a target phone may periodically send a request for
acknowledgment (e.g., an "are you there"-type query) to a device
(e.g., a modem or a CDO) connected to the phone's communication
port 70, according to the phone's communication protocol. If this
target phone does not receive any acknowledgment from the device,
the target phone would terminate any call involving the device
(e.g., initiated or received due to the device). A docking unit 10
that targets such a target phone would include a hand-holding
module 47 that is a circuit (e.g., a microcontroller such as a PIC
chip) configured to (e.g., programmed to) simply respond to such a
specified query with a suitable acknowledgment (e.g., an "I am
here"-type response), even after the main unit 20 has been detached
during a call that involves (e.g., is initiated by) the CDO.
[0039] 3. Example Embodiment: Docking Unit Simulates Communication
Traffic
[0040] For another example, a target phone may passively monitor
the sending of data or other signals (e.g., "I am here"-type
signals) by a device (e.g., a modem or a CDO) connected to the
phone's communication port 70. If this target phone notices no such
signals over the communication port 70 over a specified time span,
the phone would terminate an ongoing call that involves the device.
A docking unit 10 that targets such a target phone would include a
hand-holding module 47 that is a circuit configured to periodically
send such a suitable signal so that the target phone would know
that any existing CDO-initiated phone call should not be
automatically hung up, even after the main unit 20 has been
detached during a call that involves (e.g., is initiated by) the
CDO.
[0041] 4. Example Embodiment: Docking Unit Provides Physical or
Other Presence
[0042] For yet another example, a target phone may simply determine
whether a device (e.g., a modem or a CDO) is physically connected
to the communication port 70, in deciding whether to hang up an
externally-initiated phone call. This physical determination may be
based on a mechanical switch, a measurement of electrical load,
e.g., on data-carrying or on dedicated connector pins in the port
70, or the like. A docking unit 10 that targets such a target phone
would include a hand-holding module 47 that is merely the connector
40 itself, or a suitably connected circuit or structure (e.g., one
that includes an electrical resistor, capacitor, signal generator,
or other suitable element), as is appropriate for the target
phone's specification or design.
[0043] 5. Further Remarks
[0044] Depending on the particular automatic hang-up logic employed
by the target phone 30, the hand-holding module 47 may even be
operational even when the main unit 20 has not been detached from
the docking unit 10. In summary, the CDO is made safe against
undesirable automatic hang-ups by the target phone 30, even if the
main unit 20 is detached for use as an organizer during a phone
call. In addition, the automatic hang-up feature is still available
for its intended purpose, when the CDO is not being used.
Furthermore, the main unit 20 is made capable of being configured
for ease of use and carrying by the user, largely independently of
the particular attachment geometry dictated by the target phone
30.
[0045] F. Main Unit is Usable with Multiple Phone Models; Docking
Unit is Model(s)-specific
[0046] A single main unit 20 is able to removably attach to a
variety of docking units, wherein each docking unit is designed for
a particular model, or set of models, of target phone. In this way,
the user's investment in the CDO is largely protected, even if he
or she buys a new model of cellular phone. In particular, if the
user buys a new model of cellular phone, he or she could simply buy
a new model-specific docking unit to use with the existing main
unit 20. Such a course of action would be cheaper than buying an
entirely new CDO, and would be more convenient than having to
coordinate the use of two wholly-separate CDOs.
[0047] In general, the CDO may be used with host phones that employ
either analog technology (e.g., AMPS--Advanced Mobile Phone
Service) or digital technology (e.g., CDMA--Code Division Multiple
Access, TDMA--Time Division Multiple Access, or GSM--Global System
for Mobile Communications). A particular embodiment of the CDO as
shown in FIG. 1A or as shown in the incorporated, commonly-owned
patent applications, e.g., the applications having Ser. No.
09/071,732 (filed May 1, 1998) and Ser. No. 09/098,634 (filed Jun.
16, 1998), includes browser software and electronic mail (e-mail)
software in its program memory such that the software can direct
the CDO's processor to engage in communication with a remote host
computer to exchange e-mail or to browse remote information on the
Internet, an intranet, or the like. If the particular embodiment is
to be used with analog phones, it also includes a modem, coupled to
its processor, that handles communication with the remote host.
[0048] G. The Main Unit Docks to the Docking Unit via a Docking
Interface
[0049] 1. Overview
[0050] FIG. 1B illustrates the CDO of FIG. 1A in perspective view.
Most features of FIG. 1B have already been described in connection
with either FIG. 1A, or in the patent applications incorporated by
reference, and need not be described again in detail. Elements of
the CDO that were labeled in FIG. 1A retain their numeric labels in
FIG. 1B. These elements include the docking unit 10, the main unit
20, the pass-through communication port 43, the connectors 50 and
53, the connectors 55 and 57, and the serial port 60 of the main
unit 20. As shown in FIG. 1B, the CDO's main unit 20 also includes
an interface coupler 80 for conveying signals between the main unit
20 and the docking unit 10 which conveys the signals to and from
the target phone (not shown in FIG. 1B). The main unit 20 further
includes user inputs and a display 81. The user inputs are shown as
physical "Navi-disk" input keys 83 and additional keys 85. The
Navi-disk input keys 83 include directional keys (e.g., FORWARD,
BACKWARD, and, optionally, UP and DOWN) and a selection key (e.g.,
ENTER). The additional keys 85 preferably include about four keys
that are preferably programmed for invoking HOME/PREVIOUS,
CHANGE-VIEW, EDIT, and DIAL-NUMBER commands. The input and
navigation functionality of the inputs and the display 81 are
further described, for example, in the incorporated, commonly-owned
patent applications having Ser. No. 60/107,269 (filed Nov. 4,
1998), Ser. No. 09/071,732 (filed May 1, 1998), Ser. No. 09/187,007
(filed Nov. 4, 1998), and Ser. No. 08/905,463 (filed Aug. 4,
1997).
[0051] The interface coupler 80 may include, for example, about
five electrical conductors, or the like, that make contact with
corresponding conductors (not shown) in the docking unit 10. The
corresponding conductors cannot be seen in FIG. 1B, but would be on
the hidden (in FIG. 1B) side of the connector 50. The interface
coupler 80 may also be an elastomeric or similar
plastic-or-rubber-covered coupler, an infrared or other type of
wireless coupler (e.g., a radio-frequency transmitter) for
wirelessly communicating (e.g., within a distance of about a meter)
with the docking unit 10 and other devices, or the like. Whatever
the form of the interface coupler 80, it interfaces with the target
phone preferably via the docking unit which functions as a conduit.
For example, the interface coupler 80 may interface with a
corresponding coupler (not shown) in the docking unit, for example,
on the hidden (in FIG. 1B) side of the connector 50 so that the
docking unit conveys signals between the main unit 20 and the
target phone and preferably performs any necessary
protocol-translating functions (e.g., to handle
phone-model-specific protocol issues).
[0052] 2. The Main Unit May Have Interface-card Form, Like the
REX.TM. Organizer
[0053] At least a portion of the main unit 20, including the
interface coupler 80, may conform to the electrical and mechanical
specification of a PC-Card connector, or other interface card
connector. For example, the main unit 20 may have a form factor
(e.g., size, shape, configuration) and data synchronization scheme
that is functionally similar to those of the PC-Card-shaped (Type
II) REX PRO.TM. electronic organizer or the REX.TM. electronic
organizer, e.g., model REX-3, which are available from Franklin
Electronic Publishers of Burlington, N.J., and embody licensed
technology from Starfish, the present assignee. The REX.TM.
organizer is described for example in the incorporated,
commonly-owned patent applications having Ser. No. 09/098,634
(filed Jun. 16, 1998) and Ser. No. 08/905,463 (filed Aug. 4,
1997).
[0054] 3. The Main Unit May Itself Have a Detachable Interface-card
Component
[0055] As mentioned above, the main unit 20 may itself include two
components: an outer component, for providing the display and other
bulky elements, and a detachable interface component, for
interfacing with other devices such as handheld or notebook
personal computers. As mentioned above, such a two-component
organizer is further discussed in the incorporated, commonly-owned
patent application having Ser. No. 09/098,634 (filed Jun. 16, 1998)
and Ser. No. 60/107,151 (filed Nov. 4, 1998). The interface
component preferably includes memory (e.g., flash memory) and is
preferably configured to interface with the other devices according
to a standard interface (e.g., a CompactFlash.TM. PC-card
interface).
[0056] H. The CDO (e.g., the Main Unit) Synchronizes Information
with Other Datasets
[0057] 1. Overview
[0058] Typically, the CDO is used along with other information
devices, such as desktop, notebook, or handheld personal computers
(PCs), server computers (e.g., Internet server computers), and the
like. Each device includes a copy, or version, of the user's
information that is found in the CDO. In general, information may
be altered on any of the user's information devices independently
of the other information devices. Thus, the information in the
devices typically should be periodically synchronized.
[0059] 2. Multiple Communication Paths May Exist for
Synchronization
[0060] The CDO may synchronize with other information devices via
its serial port 60. In addition, particular above-described
embodiments of the CDO may synchronize with other information
devices in other ways. For example, consider again the embodiment
of the CDO in which the main unit 20 itself (or at least one end of
it) has the form factor of an interface card (e.g., a PC-card).
Such a main unit 20 may synchronize with other devices in a manner
similar to the REX.TM. electronic organizer--e.g., by inserting at
least one end of the main unit 20 (the end with the interface
coupler 80) at least partially into the interface-card port of a PC
or similar device. For another example, consider again the
embodiment of the CDO in which the main unit 20 itself includes a
detachable interface module (e.g., a module having an end that
conforms to an interface specification such as the CompactFlash.TM.
PC-card specification). Such a main unit 20 may synchronize with
other devices by inserting at least one end of the main unit 20's
interface module into the interface-card port of a PC or similar
device, as discussed, for example, in the incorporated,
commonly-owned patent application having Ser. No. 09/098,634 (filed
Jun. 16, 1998). For yet another example, consider again the
embodiment of the CDO in which the CDO is capable of engaging in
communication (e.g., cellular wireless communication) with a remote
computer via the CDO's host phone (e.g., via a built-in modem in
the CDO). Such a CDO may synchronize with another information
device, e.g., an Internet server computer, or the like, via the
host phone (e.g., wirelessly) through a communication network
(e.g., a public telephone network).
[0061] 3. Choose a Synchronization Method Optimized for the
Communication Path
[0062] The CDO may use any suitable synchronization method to
synchronize with other information devices. For example, the CDO
may use any of the synchronization methods that are described in
the incorporated, commonly-owned patent applications having Ser.
No. 09/347,447 (filed Jul. 3, 1999), Ser. No. 09/311,781 (filed May
13, 1999), Ser. No. 09/208,815 (filed Dec. 8, 1998), Ser. No.
09/136,215 (filed Aug. 18, 1998), and Ser. No. 08/923,612 (filed
Sep. 4, 1997). In particular, if the CDO is to synchronize
wirelessly, e.g., via the host phone, then the CDO preferably uses
the synchronization methods that are identified as especially
suitable to wireless synchronization in, for example, the
incorporated, commonly-owned patent application having Ser. No.
09/311,781 (filed May 13, 1999).
[0063] I. Further Usability Features
[0064] 1. An Included Battery Provides Auxiliary Power to the Host
Phone
[0065] A particular embodiment of the CDO as shown in FIG. 1A
includes an auxiliary power supply (e.g., battery) that provides
power to the host phone. Preferably, the auxiliary power supply
resides in the docking unit 10, but the auxiliary power supply may
also reside in the main unit 20. Power from the auxiliary power
supply is routed to the host phone using the host phone's existing
auxiliary power input point. The main unit 20 includes its own
power supply for stand-alone operation, but may also use power from
an auxiliary power supply that exists on the docking unit 10, or
may use power from the host phone (e.g., via a dedicated power line
or an ordinary signal line in the communication port 70) in
particular embodiments.
[0066] 2. Left-handed and Right-handed Modes Are Provided
[0067] During use by a right-handed user, the CDO is by default in
a right-handed mode. In this mode, as the user views the CDO's
display 81, the CDO's main navigation inputs (e.g., the Navi-disk
keys 83) preferably face the user and reside to the right of the
display 81. Thus, the user can hold the CDO's main unit 20 in his
or her right hand and use at least the main navigation inputs using
his or her right thumb. This leaves the user's left hand free, for
example, to hold the CDO's host phone at ear-side during a call
that was initiated by the CDO.
[0068] According to an embodiment of the present invention, the
user can give a command to the CDO's main unit 20 to enter into a
left-handed mode, e.g., via the above-mentioned preferences
software module or using a hardware switch located somewhere on the
CDO. In the left-handed mode, the display 81's screen coordinate
system is re-mapped such that all text images are effectively
rotated about 180 degrees to display "upside-down". Thus, a
left-handed person can easily hold the CDO "upside down" in his or
her left hand and see a correct display. In this left-handed
position, as the user views the CDO's display, the main navigation
inputs (e.g., the Navi-disk keyset 83) face the user and reside to
the left of the display 81. Thus, the user can hold the CDO's main
unit 20 in his or her left hand and use at least the main
navigation inputs using his or her left thumb. The screen
coordinate-system is re-mapped, for example, by setting a register
or switch coupled to display controller circuitry within the main
unit 20. In a particular embodiment, the CDO re-maps the coordinate
system by switching the direction of a serial latch in a horizontal
display driver chip so that the chip renders backwards. Then the
software compensates in the vertical direction by using negative
raster offsets rather than positive offsets. In an alternate
embodiment, the display is configured within the housing such that
it may be physically rotated and retain its correct wiring
connection to its circuitry. For example, the display may be
detached, rotated manually, and re-attached. In this alternative
embodiment, no coordinate-system re-mapping is necessary for the
display 81 to display "upside down".
[0069] Once the CDO's main unit 20 is held in an "upside down"
viewing position, any physical buttons that face the user, without
special provision, would also appear upside-down to the user,
individually and in their positions relative to one another. (In
contrast, user buttons that are on-screen buttons (not illustrated
in the Figs.) would automatically display correctly in left-handed
mode, individually and relative to one another, after the display
screen's image has been rotated about 180 degrees.) Physical button
keypads generally can benefit from being rotated about 180 degrees,
in whole or in part, in left-handed mode.
[0070] Various schemes for rotating physical buttons may be used.
In one embodiment of the CDO, a user input keypad, or a portion
thereof, may be physically loosened from any rigid attachment to
the main unit 20, rotated about 180 degrees, and re-attached
rigidly (e.g., "clicked in") to present a rotated placement. In
another embodiment, a user input keypad is not physically moved but
the buttons' functionality are re-mapped, e.g., by setting
register(s) or switch(es) coupled to keypad controller circuitry
within the main unit 20. After button functionality has been
re-mapped, the icons displayed on the buttons may no longer match
the buttons' functions. Therefore, a new membrane overlay (e.g.,
sticker or decal) may be provided to cover the buttons or to
replace an existing membrane overlay. In a particular embodiment,
the need for a new membrane overlay is avoided by re-mapping button
functions if and only if the functions' buttons (e.g., physical
buttons) display icons that, when read upside down, inherently
correspond to the re-mapped function. For example, the FORWARD key
is re-mapped to be the BACKWARD key, and vice versa, and the UP key
is re-mapped to be the DOWN key (if up and down keys exist), and
vice versa, because such keys' arrow icons inherently show the
re-mapped direction when viewed upside-down. Further, if the
function of a key does not semantically impose a spatial
relationship with respect to another function, then the CDO
preferably does not re-map that key's function in left-handed mode.
(For example, whereas a FORWARD key should always be below a
BACKWARD key, in a culture in which text reads downward in the
forward direction, a CHANGE-VIEW key can semantically be in any
arbitrary spatial relationship with other keys.)
[0071] FIGS. 2A and 2B illustrate a main unit 20A in the
right-handed mode and the left-handed mode, respectively, according
to an embodiment of the present invention. In FIG. 2A, the display
81 is "correct-side-up" and primary input keys 88, including a key
90 and a key 91, face the user and reside to the right of the
"correct-side-up" display 81. In the right-handed mode, the key 90
is mapped to the BACKWARD navigation function, and the key 91 is
mapped to the FORWARD navigation function. The key 90 bears a
left-up arrow icon and the key 91 bears a right-down arrow icon,
which icons respectively show the BACKWARD and FORWARD navigation
functions.
[0072] In FIG. 2B, the main unit 20A is in left-handed mode and is
therefore viewed "upside down" by the user. The display 81 remains
viewable because its coordinate system has been re-mapped to be
upside down in the left-handed mode. The main unit 20A's primary
input keys 88 now include keys with re-mapped functions. In
particular, the key 90 is now mapped to the FORWARD navigation
function and the key 91 is now mapped to the BACKWARD navigation
function. No new membrane overlay or physical rotating of keys is
necessary because the icon imprinted on each of the keys 90 and 91
when upside down resembles the icon imprinted on the other of the
keys 90 and 91 when right-side-up. Note that other keys of the
primary input keys 88 were not re-mapped, since their relative
spatial relationships are not semantically constrained by their
functions, and since their imprinted icons when upside-down do not
inherently represent any function to which they might be re-mapped
(e.g., any function originally mapped to another key when
right-side-up).
[0073] 3. An Included Speech Recognizer Supports Voice Control
[0074] A particular embodiment of the CDO as shown in FIG. 1A, or
as shown in the incorporated, commonly-owned applications, for
example, the applications having Ser. No. 09/071,732 (filed May 1,
1998) and Ser. No. 09/098,634 (filed Jun. 16, 1998), includes an
input microphone coupled to its processor and speech-recognition
software in its program memory such that the software can direct
the processor to recognize speech input from the user (e.g., user
says "John Smith") for looking up names in the phone list and for
navigating to other views (e.g., user says "Calendar View"). Speech
recognition software is well known, and is available from a number
of vendors, for example: Advanced Recognition Technologies, Inc. of
Delaware (headquarters in Chatsworth, Calif.)
(http://www.artrecognition.- com/); Dragon Systems, Inc. of Newton,
Mass. (http://www.dragonsystems.com- /); IBM Corporation of Armonk,
N.Y. (http://www.ibm.com/).
[0075] 4. Included Caller-identification Logic Identifies Incoming
Callers
[0076] A particular embodiment of the CDO as shown in FIG. 1A, or
as shown in the incorporated, commonly-owned applications, for
example, the applications having Ser. No. 09/071,732 (filed May 1,
1998) and Ser. No. 09/098,634 (filed Jun. 16, 1998), includes
caller-identification (caller-ID) circuitry coupled to the system
bus such that the CDO can: (1) instruct the host phone to allow the
CDO to receive incoming-phone-call (e.g., "telephone ring")
signals; (2) decipher caller-ID information provided by the
telephone service provider in the incoming-phone-call signal to
identify the caller's phone number; (3) search the CDO's phone book
to find a match, if any, between the caller's phone number and a
contact's phone number in the CDO's phone book; and (4) display the
name of the contact (as well as the identified phone number) on the
CDO's display to the user, so that the user can know the name of
the caller before choosing to answer the phone call.
[0077] 5. Physical Dimensions Maintain Compatibility with Belt
Holsters
[0078] Note that while the main unit 20 in FIG. 1B is shown as
having a generally rectangular shape, embodiments of the invention
may be configured into other shapes. In particular, in an
embodiment that is designed for possible use with Motorola
StarTAC.RTM. phones, one side of the main unit 20 (e.g., the side
having the Navi-Disk input keys 83) may taper into a narrower side,
to better conform to the shape of the auxiliary battery for the
StarTAC.RTM. phone. The tapered shape is similar to that shown on a
CDO in the incorporated, commonly-owned patent application having
Ser. No. 09/071,732 (filed May 1, 1998). For the embodiment for use
with StarTAC.RTM. phones, a portion of the docking unit 10 may be
narrower than the target StarTAC.RTM. phone so as to provide
clearance for a standard holster (available from Motorola, Inc.)
that holds the StarTAC.RTM. phone onto a waist belt. In particular,
the narrowed portion may be along the two lateral sides of the
docking unit 10, starting from the base side, which is the side
having the connector 50. The (partial or full) narrowing would
correspond to the "lateral recess" of a CDO that is described and
shown in the incorporated, commonly-owned patent application having
Ser. No. 09/071,732 (filed May 1, 1998). If necessary (e.g., if the
docking unit is thinner than the desired "recess"), the main unit
20 may also have a housing that defines a recess, to provide
additional clearance for the standard holster.
[0079] J. Further Discussion of Specific Embodiments
[0080] 1. CDO Allows User to Dial From Any of Multiple Software
Modules
[0081] a. Typical Usage: Dial from a Contact Page
[0082] In typical use, the user navigates the CDO's user interface
to display or highlight a particular contact entry and from there
invoke the DIAL-NUMBER command. In response, the CDO generates and
issues a command to the target phone to dial the contact entry's
phone number. If the contact entry has more than one phone number,
the CDO uses the phone number that was highlighted by a cursor, if
any, or the CDO first determines and displays a list of all
non-empty phone-number fields for the contact entry and prompts the
user to choose a number, which the CDO then uses for dialing. The
CDO generates and issues the command to the target phone according
to the target phone's communication and command protocol. An
example of such a protocol is the standard modem "AT" command set,
which is documented in the patent, trade, and technical literature.
Interfacing with a target phone, as well as the "AT" command set,
is further described, for example, in the incorporated,
commonly-owned patent application having Ser. No. 09/071,732 (filed
May 1, 1998).
[0083] b. Additional Usages: Dial from Non-contact Page or
Non-phone Field
[0084] In the preferred embodiment of the CDO, the user may also
navigate to displayed pages (e.g., views) that do not show a
contact entry of the Contacts software module, or to pages that
highlight a non-phone-number field of a record entry, and from
those pages, invoke the DIAL-NUMBER command. For example, the user
may navigate to a page that shows a calendar event, or to a page in
which the user is viewing or editing the "subject" field of a
"to-do" task, or to a page in which the user is viewing or editing
the "body" field of a memo. From such a page, which does not
highlight any phone-number field, the user invokes the DIAL-NUMBER
command. The CDO responds by intelligently trying to deduce a phone
number that is associated with the current page, prompting the user
to confirm the phone number, and generating and issuing a command
to the target phone to dial the deduced phone number
[0085] c. CDO Determines Phone Number to Use Based on Invocation
Context
[0086] Upon invocation of the DIAL-NUMBER command, the CDO
determines the phone number to be dialed, based on the context
(e.g., the displayed page) under which the DIAL-NUMBER command was
invoked. In the preferred embodiment, the determination is made
according to the following method:
[0087] STEP 1: If the DIAL-NUMBER command was invoked from a
displayed page in which a phone-number record field is highlighted,
then the CDO uses the highlighted phone number, and the method is
DONE. (The record field is either already stored as a number or is
stored as a text string that can be simply parsed to produce a
phone number.)
[0088] STEP 2: If the DIAL-NUMBER command was invoked from a
displayed page in which a non-phone-number record field is
highlighted, then the CDO attempts to parse the content of the
highlighted (non-phone-number) record field to identify a text
substring that is a phone number. After the parsing, if such a text
substring was identified, the phone number is used, and the method
is DONE. After the parsing, if no such text substring is
identified, the CDO next attempts to deduce a phone number from the
highlighted record field's record as if no record field had been
highlighted, i.e., according to the STEPs 3 and 4 below.
[0089] STEP 3: If the DIAL-NUMBER command was invoked from a
displayed page that shows or highlights a contact record, but does
not highlight any particular field of the record, the CDO proceeds,
as described earlier, to determine and display a list of all
non-empty phone-number fields for the contact record and prompts
the user to choose a number. Once the user chooses a phone number
to be dialed, the method is DONE.
[0090] STEP 4: If the DIAL-NUMBER command was invoked from a
displayed page that shows or highlights a non-contact record, but
does not highlight any particular field of the record, the CDO
attempts to parse the main field of the record to identify a text
substring that is a phone number, as described for STEP 1. In an
alternate embodiment, or for certain types of records (e.g., memo
records), the CDO actually parses multiple or all fields of the
record, identifies all phone numbers contained in the fields, and
prompts the user to choose one of them. If no phone number is found
in the record's main field (or all fields, for the alternate
embodiment) proceed to STEP 5. If a phone number is identified, the
method is DONE. The main field of a "to-do" task record is
preferably its "subject" field, or the like. The main field of an
event record is preferably its "subject" field, or the like. The
main field of an e-mail record is preferably its "subject" field,
or the like. The main field of a memo record is preferably its
"subject" field, or the like, but if no separate "subject" field
exists for the memo record, its entire "body" field, or the like,
can be considered to be its main field.
[0091] STEP 5: (As reached from STEP 4.) If the non-contact record
is associated with a contact record (e.g., the record's main field
contains a name (e.g., "Joe Smith") that matches the name of a
contact record), the CDO asks the user whether the user wishes to
dial the contact record. If the user replies yes, proceed to STEP
3. Otherwise, no phone number has been identified, and the method
is DONE. The determination of whether the non-contact record is
associated with a contact record is further discussed in connection
with a "Find-in-Contacts" feature in the incorporated,
commonly-owned patent application having Ser. No. 09/187,007, filed
Nov. 4, 1998.
[0092] The parsing of a text field to identify and extract phone
numbers may be done in any suitable way. The parsing should depend
on the format in which phone numbers are expected to be written,
for a given user market. In the preferred embodiment, which is
adapted for the United States market, the parsing algorithm is
implemented according to the following source code snippet:
[0093] return
[0094] ScanNum(pNum,"1 (xxx) xxx-xxxx","?+ ?1 ?- ?(ddd ?)?- aaa ?-
aaaa",pString) .parallel.ScanNum(pNum,"1 (xxx) xxx-xxxx","?1?.
?(ddd ?) ?.aaa.aaaa",pString) .parallel.ScanNum(pNum,"1 (A)
xxx-xxxx","aaa - aaaa",pString) .parallel.ScanNum(pNum,"1 (A)
xxx-xxxx","aaa.aaaa",pString- ) .parallel.ScanNum(pNum,"1 (A)
xxx-xxxx","ddd ?. dddd",pString)
[0095] In the above code snippet, ScanNum( ) is a string parsing
function that accepts four arguments. The fourth argument, e.g.,
pString, is an input string to be parsed. The first argument, e.g.,
pNum, is an output string in which an identified phone number is to
be stored, if parsing is successful. The second argument, e.g., "1
(A) xxx-xxxx", specifies the format of the result string that will
contain the phone number, if parsing is successful. The third
argument, e.g., "?1?. ?(ddd ?) ?.aaa.aaaa", specifies the pattern
to be matched in the input string. ScanNum( ) returns TRUE if and
only if it succeeds in finding the desired pattern in the
input.
[0096] In the second argument, the character `x` is a placeholder
for characters that are obtained from the input string; the
character `A` is a placeholder for the user's default telephone
area code which is known to the function ScanNum( ); and all other
characters are literal characters. In the third argument, the
character `a` is to be matched by any alphabetic character or digit
in the input string, and the character `d` is to be matched by any
digit in the input string. Further, in the third argument, the
character `?` followed by any character is to be matched by
zero-or-more appearances of the character that follows `?`; a space
character (i.e., ` `) is to be matched by zero or more appearances
of whitespace character(s) in the input string; and all other
characters are literal characters to be matched by the same
character (case-insensitively) in the input string. Any character
of the input string that is matched to the characters `a` or `d` of
the pattern specification (i.e., of the third argument) is provided
to the output string at the locations specified by the placeholder
`x` characters of the second argument. The above code snippet is
but one parsing implementation that is made deliberately simple for
high execution speed. Other parsing implementations are possible.
For illustration, following are examples of input strings that can
be successfully parsed into output strings by the above code
snippet. In the examples, the user's default area code is
"408".
1 Input String Output String "blah blah 1.800.555.1212 blah blah"
"1 (800) 555-1212" "blah blah 800 555 1212 blah blah" "1 (800)
555-1212" "blah blah + 1 (800)555-1212 blah blah" "1 (800)
555-1212" "blah blah (800)CALLNOW blah blah" "1 (800) CAL-LNOW"
"blah blah 8005551212 blah blah" "1 (800) 555-1212" "blah blah 555
1212 blah blah" "1 (408) 555-1212"
[0097] 2. An Embodiment: Docking Unit Mates to Battery Compartment
Opening
[0098] As mentioned above, a single main unit 20 is able to
removably attach to a variety of docking units, wherein each
docking unit is designed for a particular model or set of models of
target phone. FIG. 3A illustrates a CDO's docking unit 10A
according to a specific embodiment that attaches to a host phone
30A in the manner of a cover for an internal battery compartment,
according to an embodiment of the present invention. In particular,
a portion of the docking unit that makes contact with the host
phone 30A conforms in shape to at least some portion of a
battery-compartment cover. In particular the docking unit includes
connectors that emulate the battery-compartment cover's connectors
(e.g., snap-in tabs, and the like). FIG. 3B illustrates a main unit
20A being attached to the docking unit 10A of FIG. 3A.
[0099] 3. Working with Multiple Models of Phones
[0100] Like the main unit(s) mentioned in earlier sections, the
main unit 20A that is shown in FIGS. 3A and 3B preferably can dock
with multiple types of docking units (e.g.,
battery-compartment-cover docking units, external-auxiliary-battery
docking units, even built-in docking units, and the like. Built-in
docking units are docking units for non-legacy phones, that are
built-into the phone itself and need not or cannot be removed from
the phone. To the extent that different target phones do not use a
same communication protocol, a main unit that is to be docked to
multiple docking units, for multiple target phones, may be loaded
with phone-specific (e.g., phone-model-specific) software. Upon
docking with a docking unit, such a main unit determines from the
docking unit the model of the host phone, and selects and uses the
software in the main unit's memory that is specific to the model of
the host phone. In a particular embodiment, the
phone-model-specific software is created and sold with each new
model of docking unit, as new models of docking units are
introduced for new models of host phones. In this way, the main
unit can be updated as new models of phones are introduced.
Phone-model-specific software, if any, is preferably transferred
(e.g., installed) into the main unit (e.g., into flash-based memory
in the main unit), for example via the serial port of the main unit
from a personal computer. In an alternate embodiment, each docking
unit may include an amount of memory (e.g., flash-based memory)
that contains phone-model-specific software for instructing the
main unit to work with the docking unit's compatible model(s) of
phone. In this alternate embodiment, the main unit simply loads or
uses the software from the docking unit for the docking unit's
compatible model(s) of target phone. In another alternate
embodiment, the docking unit itself includes a microcontroller or
other processor, and associated memory and software, that
translates between a protocol understood by the main unit and a
protocol used by the docking unit's compatible model(s) of target
phone.
[0101] While the invention is described in some detail with
specific reference to a single-preferred embodiment and certain
alternatives, there is no intent to limit the invention to that
particular embodiment or those specific alternatives. Thus, the
true scope of the present invention is not limited to any one of
the foregoing exemplary embodiments.
* * * * *
References