U.S. patent application number 13/473283 was filed with the patent office on 2012-11-15 for tv program database.
This patent application is currently assigned to Microsoft Corporation. Invention is credited to Peter J. Potrebic, Thomas H. Taylor.
Application Number | 20120288260 13/473283 |
Document ID | / |
Family ID | 29269743 |
Filed Date | 2012-11-15 |
United States Patent
Application |
20120288260 |
Kind Code |
A1 |
Potrebic; Peter J. ; et
al. |
November 15, 2012 |
TV PROGRAM DATABASE
Abstract
Before a programming guide is created, a unique code is assigned
to each TV program that can be identified in the programming guide.
Prior to the creation of the programming guide, a viewer selects
the unique code corresponding to the TV show that the viewer would
like to record whenever that TV show is broadcast. When the
programming guide is created, the corresponding unique codes are
associated with each TV program in the programming guide. The TV
program corresponding to the viewer-selected unique code is then
scheduled to be recorded in accordance with the announced broadcast
schedule in the programming guide. A recording is made of the TV
program corresponding to the viewer-selected unique code as the TV
program is broadcast in accordance with the announced broadcast
schedule in the programming guide.
Inventors: |
Potrebic; Peter J.;
(Calistoga, CA) ; Taylor; Thomas H.; (Redmond,
WA) |
Assignee: |
Microsoft Corporation
Redmond
WA
|
Family ID: |
29269743 |
Appl. No.: |
13/473283 |
Filed: |
May 16, 2012 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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11468007 |
Aug 29, 2006 |
8209720 |
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13473283 |
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10145461 |
May 13, 2002 |
7200611 |
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11468007 |
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Current U.S.
Class: |
386/297 ;
386/E5.07 |
Current CPC
Class: |
Y10S 707/99944 20130101;
H04N 5/775 20130101; H04N 21/482 20130101; Y10S 707/99953 20130101;
H04N 5/4401 20130101; H04N 21/4532 20130101; H04N 21/4622 20130101;
H04N 21/44204 20130101; H04N 21/47214 20130101; H04N 21/426
20130101; Y10S 707/99942 20130101; Y10S 707/99943 20130101; Y10S
707/99948 20130101; H04N 5/44543 20130101; H04N 21/26283 20130101;
H04N 21/4334 20130101; H04N 21/4345 20130101; H04N 21/4823
20130101; Y10S 707/99945 20130101; G06F 16/58 20190101; H04N 21/47
20130101; H04N 5/782 20130101 |
Class at
Publication: |
386/297 ;
386/E05.07 |
International
Class: |
H04N 5/775 20060101
H04N005/775 |
Claims
1. A method comprising: maintaining a plurality of show identifiers
(IDs) that each represent a television (TV) program that may, at
some future time, be scheduled for broadcast; associating a primary
request ID with a particular one of the show IDs to indicate a
user's interest in the TV program represented by the particular
show ID; receiving programming guide data that identifies TV
programs scheduled for broadcast during an upcoming time period,
where the TV programs that are scheduled for broadcast comprise a
subset of the TV programs represented by the show IDs; identifying
the TV program associated with the primary request ID in the
programming guide data, wherein the programming guide data
indicates that the TV program associated with the primary request
ID is scheduled to be broadcast from a broadcast start time through
a broadcast end time on a broadcast channel; automatically
generating a program event, thereby scheduling the TV program
associated with the primary request ID to be recorded according to
the programming guide data; and automatically recording the TV
program associated with the primary request ID at the broadcast
start time based on the program event.
2. The method as defined in claim 1, wherein the associating
comprises: receiving a request to identify the TV program
represented by the particular show ID from an entity selected from
a group comprising a household, a client device in the household,
and a viewer in the household.
3. The method as defined in claim 1, further comprising associating
a secondary request ID with the particular show ID to indicate that
the TV program has been recorded.
4. The method as defined in claim 1, further comprising associating
each of the TV programs identified in the programming guide data
with a corresponding show ID, wherein the plurality of show IDs
collectively represent the universe of all TV programs that can be
identified in the programming guide data.
5. The method as defined in claim 3, further comprising: playing
back a recording of the TV program; and associating a third request
ID with the particular show ID to indicate that a recording of the
TV program has been played back.
6. The method as defined in claim 1, further comprising associating
a secondary request ID with a second show ID to indicate a request
to not record the TV program represented by the second show ID.
7. The method as defined in claim 5, wherein: the secondary request
ID comprises an identity of a requestor responsible for associating
the primary request ID with the particular show ID representing the
TV program; and the third request ID comprises an identity of a
requestor of the play back of the recorded TV program.
8. The method as defined in claim 7, wherein the requestors are
selected from a group comprising of a household, a TV receiver in
the household, and a viewer in the household.
9. One or more computer-readable media comprising
computer-executable instructions that, when executed, direct a
computing system to perform the method of claim 1.
10. One or more computer-readable media comprising
computer-executable instructions that, when executed, direct a
computing system to perform a method comprising: associating a
request ID with a show ID among a plurality of show IDs each being
unique to a corresponding TV program in a universe of TV programs
that can be broadcast; receiving, after associating the request ID
with the show ID, a subset of the universe of TV programs that can
be broadcast with a respective channel, start time and duration for
each said TV program of the subset; and scheduling for recording
one said TV program of the subset to which the request ID
corresponds according to the respective channel, start time and
duration thereof.
11. The one or more computer-readable media as defined in claim 10,
wherein the method further comprises: recording the one said TV
program of the subset when broadcast on the respective channel from
the start time and for the duration thereof; performing a play back
of the recorded TV program; updating a log file for the play back
of the recorded TV program as being watched, wherein the log file
includes a history of TV programs watched; and outputting a report
derived from the log file and containing the history of TV programs
watched.
12. An apparatus comprising a processor in communication with a
video recorder, a receiver, and a memory containing a programming
guide, the processor executing an application to: identify a TV
program in the programming guide that is to be broadcast from a
broadcast start time through a broadcast end time on a broadcast
channel, the TV program corresponding to a primary request ID in a
database in the memory; and create a program event to record the TV
program from the broadcast start time through the broadcast end
time on the broadcast channel, wherein the database includes: a
plurality of show IDs each representing a TV program that can be
identified in the programming guide; and a plurality of said
primary request IDs each representing a request to identify the TV
program corresponding to one said show ID.
13. The apparatus as defined in claim 12, wherein: the database
further comprises a plurality of secondary request IDs each
representing a TV program that has been recorded in the memory; and
the method further comprises: recording the TV program
corresponding to the program event from the broadcast start time
through the broadcast end time on the broadcast channel; and adding
one said secondary request ID to the database for the TV program
corresponding to the program event.
14. The apparatus as defined in claim 12, wherein the plurality of
show IDs collectively represent the universe of all TV programs
that can be identified in the programming guide.
15. The apparatus as defined in claim 12, wherein: the database in
the memory further comprises a plurality of third request IDs each
representing a TV program that has been recorded and played back;
and the processor executes the application to further: play back a
recording of the TV program corresponding to the program event; and
adds one said third request ID to the database for the TV program
corresponding to the program event.
16. The apparatus as defined in claim 12, wherein the database in
the memory further comprises a plurality of third request IDs each
representing a TV program corresponding to one said show ID that
has been requested not to be recorded in the memory.
17. The apparatus as defined in claim 15, wherein: each said
secondary request ID has a component representing an identity of a
requestor of the recording of the TV program corresponding to the
program event; and each said third request ID has a component
representing an identity of a requestor of the play back of a
recording of the TV program corresponding to the program event.
18. The apparatus as defined in claim 17, wherein the requestors
are selected from a group comprising a household, a TV receiver in
the household, and a viewer in the household.
19. A client device comprising: means for identifying in a
programming guide a TV program that is to be broadcast from a
broadcast start time through a broadcast end time on a broadcast
channel and that corresponds to a primary request ID in a database;
means for creating a program event to record the TV program from
the broadcast start time through the broadcast end time on the
broadcast channel, wherein the database includes: a plurality of
show IDs each representing a TV program that can be identified in
the programming guide; and a plurality of said primary request IDs
each representing a request to identify the TV program
corresponding to one said show ID; and means for recording the TV
program from the broadcast start time through the broadcast end
time on the broadcast channel based on the program event.
20. The client device as defined in claim 19, wherein: the database
further comprises a plurality of secondary request IDs each
representing a TV program that had been recorded; and the client
device further comprises: means for adding one said secondary
request ID to the database for the TV program corresponding to the
program event.
21. The client device as defined in claim 19, wherein the plurality
of show IDs collectively represent the universe of all TV programs
that can be identified in the programming guide.
22. The client device as defined in claim 20, wherein: the database
further comprises a plurality of third request IDs each
representing a TV program that has been recorded and played back;
and the client device further comprises: means for playing back a
recording of the TV program corresponding to the program event; and
means for adding one said third request ID to the database for the
TV program corresponding to the program event.
23. The client device as defined in claim 19, wherein the database
further comprises a plurality of fourth request IDs each
representing a TV program that is not to be recorded.
24. The client device as defined in claim 22, wherein: each said
secondary request ID has a component including an identity of a
requestor of the recording of the TV program corresponding to the
program event; and each said third request ID has a component
thereof including an identity of a requestor of the play back of
the recording of the TV program corresponding to the program
event.
25. The client device as defined in claim 24, wherein the
requestors are selected from a group comprising of a household, a
TV receiver in the household, and a viewer in the household.
26. The client device as defined in claim 19, embodied as a digital
video recorder.
27. A TV broadcasting system comprising: a TV broadcast network for
broadcasting video signals on a plurality of channels; a network
resource including: a content database storing content of a
plurality of video broadcast events; a content serving module to
serve the video broadcast events by broadcasting on the TV
broadcast network; a guide database storing event schedules each
including one said channel, a start time, and a duration
corresponding to one said video broadcast event on the broadcast
network; and a guide serving module to serve the event schedules by
broadcasting on the TV broadcast network; a client device
including: a receiver to receive a video signal and to receive the
event schedules broadcast on the TV broadcast network; a memory to
store the event schedules and to store video data received in a
video signal by the receiver; a video recorder to create a
recording of video data in the memory and to play back the
recording of video data in the memory; a processor executing an
application to: identify one said video broadcast event by a
corresponding one said event schedule in the memory that
corresponds to a primary request ID in a database in the memory;
and create a program event to record the one said video broadcast
event corresponding to the primary request ID, wherein the database
includes: a plurality of show IDs each representing a video
broadcast event that can be identified in the event schedules; and
a plurality of said primary request IDs each representing a request
to identify the video broadcast event corresponding to one said
show ID.
28. The TV broadcasting system as defined in claim 27, wherein: the
database further comprises a plurality of secondary request IDs
each representing one said video broadcast event that has been
recorded in the memory; and the processor executes the application
further to: record the one said video broadcast event corresponding
to the primary request ID; and add one said secondary request ID to
the database for the one said video broadcast event corresponding
to the primary request ID.
29. The TV broadcasting system as defined in claim 27, wherein the
plurality of show IDs collectively represent the universe of all
video broadcast events that can be identified in the event schedule
in the memory.
30. The TV broadcasting system as defined in claim 27, wherein: the
database in the memory further comprises a plurality of third
request IDs each representing a TV program that has been recorded
and played back; and the processor executes the application to
further: play back a recording of the one said video broadcast
event corresponding to the primary request ID; and add one said
third request ID to the database for the one said video broadcast
event corresponding to the primary request ID.
31. The TV broadcasting system as defined in claim 27, wherein the
database in the memory further comprises a plurality of fourth
request IDs each representing a TV program that has been requested
not to be recorded.
32. The TV broadcasting system as defined in claim 30, wherein:
each said secondary request ID has a component including an
identity of a requestor of the recording of the one said video
broadcast event corresponding to the primary request ID; and each
said third request ID has a component thereof including an identity
of a requestor of the play back of the recording of the one said
video broadcast event corresponding to the primary request ID.
33. The TV broadcasting system as defined in claim 32, wherein the
requestors are selected from a group comprising a household, a TV
receiver in the household, and a viewer in the household.
34. A system comprising: means for content distribution including:
means for broadcasting video signals on a plurality of channels;
means for storing content of a plurality of video broadcast events;
means for serving the video broadcast events by broadcasting on the
means for broadcasting video signals; means for storing event
schedules each including one said channel, a start time, and a
duration corresponding to one said video broadcast event; and means
for serving the event schedules by broadcasting on the means for
broadcasting video signals; means for receiving content
distribution including: means for receiving the event schedules and
a video signal; means for storing in a memory an application and,
as received by the means for receiving, the event schedules and
video data received in the video signal; means for recording the
video data in the memory; means for playing back the video data
recorded in the memory; means for executing the application to:
identify one said video broadcast event by a corresponding one said
event schedule in the memory that corresponds to a primary request
ID in a database in the memory; and create a program event to
record the one said video broadcast event corresponding to the
primary request ID, wherein the database includes: a plurality of
show IDs each representing a video broadcast event that can be
identified in the event schedules; and a plurality of said primary
request IDs each representing a request to identify the video
broadcast event corresponding to one said show ID; and means for
recording the one said video broadcast event corresponding to the
primary request ID based on the program event.
35. The system as defined in claim 34, wherein: the database
further comprises a plurality of secondary request IDs each
representing one said video broadcast event that has been recorded
in the memory by the means for recording the video data in the
memory; and the means for executing the application executes the
application further to: add one said secondary request ID to the
database for the one said video broadcast event corresponding to
the primary request ID.
36. The system as defined in claim 34, wherein the plurality of
show IDs collectively represent the universe of all video broadcast
events that can be identified in the event schedule in the
memory.
37. The system as defined in claim 35, wherein: the database
further comprises a plurality of third request IDs each
representing a TV program that had been recorded; and the means for
receiving content distribution further comprises: means for playing
back a recording of the one said video broadcast event that
corresponds to the primary request ID; and means for adding one
said third request ID to the database for the one said video
broadcast event that corresponds to the primary request ID.
38. The system as defined in claim 34, wherein the database further
comprises a plurality of fourth request IDs each representing a TV
program that has been requested not to be recorded.
39. The system as defined in claim 37, wherein: each said secondary
request ID has a component including an identity of a requestor of
a recording of the one said video broadcast event corresponding to
the primary request ID; and each said third request ID has a
component thereof including an identity of a requestor of the play
back of the recording of the one said video broadcast event
corresponding to the primary request ID.
40. The system as defined in claim 39, wherein the requestors are
selected from a group comprising a household, a TV receiver in the
household, and a viewer in the household.
41. One or more computer-readable media comprising computer
executable instructions that, when executed, direct a client device
to: identify in a programming guide a TV program that is to be
broadcast from a broadcast start time through a broadcast end time
on a broadcast channel and that corresponds to a primary request ID
in a database; and create a program event to record the TV program
from the broadcast start time through the broadcast end time on the
broadcast channel, wherein the database includes: a plurality of
show IDs each representing a TV program that can be identified in
the programming guide; and a plurality of said primary request IDs
each representing a request to identify the TV program
corresponding to one said show ID.
42. One or more computer-readable media as defined in claim 41,
wherein: the database further comprises a plurality of secondary
request IDs each representing a TV program that had been recorded;
and the one or more computer-readable media further comprises
computer executable instructions that, when executed, direct the
client device to: record the TV program corresponding to the
program event from the broadcast start time through the broadcast
end time on the broadcast channel; and add one said secondary
request ID to the database for the TV program corresponding to the
program event.
43. One or more computer-readable media as defined in claim 41,
wherein the plurality of show IDs collectively represent the
universe of all TV programs that can be identified in the
programming guide.
44. One or more computer-readable media as defined in claim 42,
wherein: the database further comprises a plurality of third
request IDs each representing a TV program that has been recorded
and played back; and the one or more computer-readable media
further comprises computer executable instructions that, when
executed, direct the client device to: play back a recording of the
TV program corresponding to the program event; and add one said
third request ID to the database for the TV program corresponding
to the program event.
45. One or more computer-readable media as defined in claim 41,
wherein the database further comprises a plurality of fourth
request IDs each representing a TV program that has been requested
not to be recorded.
46. One or more computer-readable media as defined in claim 44,
wherein: each said secondary request ID has a component including
an identity of a requestor of a recording of the TV program
corresponding to the program event; and each said third request ID
has a component thereof including an identity of a requestor of the
play back of the recording of the TV program corresponding to the
program event.
47. One or more computer-readable media as defined in claim 46,
wherein the requestors are selected from a group comprising a
household, a TV receiver in the household, and a viewer in the
household.
48. One or more computer-readable media as defined in claim 47,
further comprising computer executable instructions that, when
executed, direct the client device to output a report descriptive
of at least one of: the recording of TV programs requested by at
least one of the household, the TV receiver in the household, or
the viewer in the household; and the play back of TV programs by at
least one of the household, the TV receiver in the household, or
the viewer in the household.
49. One or more computer-readable media as defined in claim 48,
wherein the report is output so as to be addressed to a network
resource in communication with an interconnected network.
50. One or more computer-readable media as defined in claim 48,
wherein the report includes for each said TV program information
selected from a group comprising a broadcast channel of the TV
program, a broadcast duration of the TV program, a description of
the TV program, a rating of the TV program, an actor appearing in
the TV program, a director of the TV program, a writer of the TV
program, a producer of the TV program, and a genre of the TV
program.
51. A database comprising: a plurality of show identities (IDs)
each representing an audio-visual content item, wherein the
plurality of show IDs respectively represent a universe of all
audio-visual content items that can be broadcast; and a plurality
of primary request IDs each representing an operation by a
requestor upon the audio-visual content item corresponding to one
said show ID, wherein each primary request ID indicates a
particular audio-visual content item that has been, or that is
desired to be, watched or recorded, and Wherein the requestor is
selected from a group comprising a household, a client device in
the household, and a viewer in the household.
52. (canceled)
53. The database as defined in claim 51, wherein: the operation
upon the audio-visual content item is an acknowledgement selected
from a group comprising: an acknowledgement that a recording of the
audio-visual content item has been made; an acknowledgment that a
play back of the recording of the audio-visual content item has
been performed; a request to record the audio-visual content item;
and a request to play back the recording of the audio-visual
content item.
54. (canceled)
55. The database as defined in claim 51, further comprising a
plurality of secondary request IDs each representing a request that
there be no future operation upon the audio-visual content item
corresponding to one said show ID.
56. The database as defined in claim 55, wherein: each said
audio-visual content item comprises a TV program; and the request
that there be no future operation upon the audio-visual content
item corresponding to one said show ID is a request not to record
the TV program corresponding to one said show ID.
57. The database as defined in claim 53, wherein each said primary
request ID representing an operation upon the audio-visual content
item corresponding to one said show ID has a component thereof
selected from a group comprising: an identity of the requestor of
the recording of the audio-visual content item that has been made;
and an identity of the requestor of the play back of the recording
of the audio-visual content item that has been performed
58. The database as defined in claim 57, wherein the requestor is
selected from a group comprising a household, a TV receiver in the
household, and a viewer in the household.
59. One or more computer-readable media comprising
computer-executable instructions that, when executed, direct a
computing system to maintain a database comprising: a plurality of
show IDs each representing a TV program, wherein the plurality of
show IDs collectively represent the universe of all TV programs;
one or more first tags, each associated with a respective one said
show ID, and representing an acknowledgement that there had been
made either a recording of the corresponding TV program or a play
back of the corresponding TV program; and one or more second tags,
each associated with a respective one said show ID, and
representing a request to record the corresponding TV program.
60. (canceled)
61. The one or more computer-readable media as defined in claim 59,
wherein the request to record the corresponding TV program is an
acknowledgement that there will be a play back of the corresponding
TV program.
62. The one or more computer-readable media as defined in claim 59,
further comprising one or more third tags, each associated with a
respective one said show ID, and representing a request not to
record the corresponding TV program, each said third tag optionally
including a numerical expression of time after which one said
second tag will be set to represent a request to record the
corresponding TV program.
63. The one or more computer-readable media as defined in claim 59,
wherein each said first tag has a component thereof selected from a
group comprising: an identity of a requestor of the recording of
the corresponding TV program; and an identity of a requestor of a
play back of the corresponding TV program.
64. The one or more computer-readable media as defined in claim 63,
wherein the requestor is selected from a group comprising a
household, a TV receiver in the household, and a viewer in the
household.
Description
RELATED APPLICATIONS
[0001] The present application is a continuation of, and claims
priority from, U.S. patent application Ser. No. 10/145,461 filed
May 13, 2002, the disclosure of which is incorporated by reference
herein.
TECHNICAL FIELD
[0002] The present invention relates to recording a television (TV)
program broadcast on a channel. More particularly, the present
invention relates to a database to keep track of TV programs that
have been, or are desired to be, watched or recorded and from which
there are selected TV programs for recording prior to their
announced broadcast in a program guide.
BACKGROUND
[0003] Client devices in a television-based entertainment system
include set top boxes such as cable boxes, satellite receivers,
digital video recorders, and video cassette recorders (VCRs). Some
client devices have recording capabilities and can be set-up by a
viewer to record a television (TV) program that will be broadcast
sometime in the future. Typically, the viewer will set-up a client
device ahead of time so that it will record a TV program on a
particular date at a certain starting time, on a particular
broadcast channel, and for a particular duration. After the set-up
on the particular date, the client device will automatically tune a
tuner to the particular channel at the particular starting time and
record the TV program being broadcast for the particular duration.
After the recording of the TV program has been made, the recording
can be played back for the enjoyment of the viewer.
[0004] The viewer can generally find programs to record by looking
at a line-up of programs for various broadcast channels that is
published in newspapers, magazines, and at Web sites on the
Internet. Some client devices can receive a transmission of data
from which there can be assembled an Electronic Programming Guide
(EPG). Similar to the published line-up of programs, the EPG
informs the viewer of future programming for which the viewer may
wish to set up the client device to record.
[0005] While the published line-up of programs and the EPG are
useful in finding television programs or shows to record, the
selection from these are generally limited to a future time period
not more than one to two weeks. This limitation is quite severe as
compared to the universe of all television programming that is
available for broadcasting. A viewer may wish to view a television
program because a favorite actress is featured, or because the
particular plot is of interest. The viewer, however, will not be
able to find out when the television program will air if
information regarding same appears neither in the published line-up
of programs or the EPG. Since the viewer is not so informed as to a
future date at which a desired television program will air, the
viewer will not be able to set up the client device to record the
television program. It would be an advantage in the art to provide
a viewer will the ability to specify a television program to record
even if it does not appear in a published line-up of programs or an
EPG. Consequently, there is a need for improved databases, methods,
apparatus, client devices, systems, and computer programs that can
provide such a capability.
SUMMARY
[0006] In an implementation, databases, methods, apparatus, client
devices, systems, and computer programs are used to assign a unique
code to each TV program that can be identified in a programming
guide before the programming guide is created. Prior to the
creation of the programming guide, a viewer selects the unique code
corresponding to the TV show that the viewer would like to record
when that TV show is broadcast. When the programming guide is
created, the corresponding unique codes are associated with each TV
program in the programming guide. The TV program corresponding to
the viewer-selected unique code is then scheduled to be recorded in
accordance with the announced broadcast schedule in the programming
guide. A recording is made of the TV program corresponding to the
viewer-selected unique code as the TV program is broadcast in
accordance with the announced broadcast schedule in the programming
guide.
BRIEF DESCRIPTION OF THE DRAWINGS
[0007] FIG. 1 illustrates an exemplary environment in which the
databases, methods, apparatus, client devices, systems, and
computer programs described herein may be implemented, and more
particularly showing a content distribution system broadcasting to
a plurality of client devices, where both the content distribution
system and each client device is in communication with a two-way
network.
[0008] FIG. 2 illustrates of an example client device, a
television, and various input devices that interact with the client
device.
[0009] FIG. 3 is a block diagram that illustrates components of the
example client device(s) shown in FIGS. 1-2.
[0010] FIG. 4 is a flow diagram that illustrates a procedure for
selecting a TV program for recording prior to its announced
broadcast in a program guide and for scheduling the TV program to
be recorded after its broadcast schedule is announced in the
program guide.
[0011] FIG. 5 illustrates, in a front elevation view, an exemplary
environment in which a client device outputs a section of an
electronic program guide (EPG) resulting in a display of same upon
a television, where the EPG lists each of a plurality TV programs
scheduled for broadcast and their respective unique codes.
[0012] FIG. 6 shows the client device outputting, for display upon
the television of FIG. 5, a subset of a universe list of TV
programs that can be broadcast and their respective unique
codes.
[0013] FIG. 7 shows the client device outputting diagnostics upon
the television of FIGS. 5-6.
DETAILED DESCRIPTION
[0014] A vast collection of audio-video (AV) content is available
to be broadcast on a television broadcasting system, including
previously broadcast (TV) shows, movies that had a run at `the box
office`, past sporting events, etc. Additionally, new audio-video
(AV) content is constantly being produced by motion picture studios
(e.g. `Hollywood`), documentary producers, sporting associations
(e.g. NFL, NBA, NHL, PGA, etc.) The more recently produced AV
content, such as first run movies, are generally not released to
broadcast television until they have had a run at `the box office`.
Also, certain sporting events are broadcast annually or
periodically, such as the World Series of Baseball in the USA, the
Super Bowl of the NFL, and the various summer and winter Olympics
sporting events. After the passage of time, and generally after a
decline in interest of the public, each AV content is released to
broadcast television. The exact date, time, and channel that each
AV content will be broadcast are not known until this information
appears in the publication a program guide. A viewer can review the
contents of the program guide to locate a desired TV show and then
set up a video recording device, such as a digital video recorder,
to record the desired TV show at the date and time announced in the
program guide.
[0015] In one implementation, each TV show that can be announced in
a programming guide is assigned a unique code, called a show
Identifier (ID), before the programming guide is created. This show
ID, which is unique to its respective assigned TV show, can be
created by an entertainment industry service provider, or other
entity. The show IDs can the be made available on the Internet,
such as via a Web hosting service. A client device, such as a set
top box or digital video recorder, can communicate with the Web
hosting service to obtain the show IDs. A viewer can then select
one or more show IDs, either using the client device or other
network resource, in order to designate corresponding TV shows that
the viewer would like to record, whenever the respective TV shows
are broadcast. Each such designation creates a request ID to
indicate, for a corresponding show ID, that the viewer would like
to make a recording of the corresponding TV show when it is
broadcast.
[0016] When a programming guide is created, an event schedule for
each TV show is given. Each TV show that appears in the programming
guide is also associated with its respective show ID. The
association of TV shows with respective show IDs can be performed
by the publisher of the programming guide, one or more program data
providers, and/or by an entertainment industry service provider or
other entity such as a Web hosting service. The show IDs associated
with the TV shows in the programming guide are then compared to
those request IDs that were created based upon the viewer's
previous selections. When a match is found, the TV show
corresponding to the match is scheduled to be recorded according to
its broadcast schedule in the programming guide. This scheduling is
performed by the creation of a program event. The program event
coordinates the recording of each TV program that the viewer
previously selected when it is broadcast at the date and time
announced in the programming guide. Either the scheduling of the
recording and/or the actual recording of TV shows can be performed
at a client device or other network resource.
[0017] A viewer can use a database to select for recording first
run movies that are currently at `the box office` when each is
eventually broadcast. Moreover, TV shows that were previously
broadcast can also be scheduled to be recorded even before a re-run
of the same is announced in a programming guide. As such, a viewer
can use the database of show IDs to schedule for recording both old
and new TV shows even though the viewer has no way of knowing when
they will be broadcast. Thus, the viewer can optionally avoid
reviewing each published programming guide as it issues to find and
set up to record those TV shows that the viewer knows in advance
that the viewer would like to record. The viewer's experience with
the client device is thereby enhanced.
[0018] Each programming guide contains event schedules. The
programming guide can be received in the memory of the client
device through a variety of techniques, and are generally within a
guide database which can be an electronic program guide (EPG). The
EPG can be received into the memory of the client device through a
variety of techniques, including but not limited to trickle
streaming the same from a satellite signal or from another program
guide data provider. The EPG is typically continually supplied to
the client device and includes information that relates to the
programming content that will be broadcast in the future. More
specifically, the guide data contains information that indicates,
in advance, the starting time and ending time of the programs that
are described by the guide data. The EPG also includes the channel,
and the program title. Thus, when a request ID in the database of
the client device has a corresponding Show ID that can be matched
to a TV program listed in the EPG, the client device is directed to
create a program event that coordinates the client device to record
the program that is linked in the EPG at its corresponding
broadcast time.
[0019] The discussion herein is directed to television-based
entertainment systems, such as interactive TV networks, cable
networks that utilize electronic program guides, and Web-enabled TV
networks. Client devices in such systems range from full-resource
clients with substantial memory and processing resources, such as
TV-enabled personal computers, digital video recorders, and TV
recorders equipped with hard-disks, to low-resource clients with
limited memory and/or processing resources such as traditional
set-top boxes and client devices that can record on to video tape
such as video cassette recorders. While aspects of the described
methods and computer programs can be used in any of these systems
and for any types of client devices, they are described in the
context of the following exemplary environment.
Exemplary Environment
[0020] FIG. 1 illustrates an exemplary environment 100 in which the
methods, apparatus, client devices, computer programs, and systems
described herein may be implemented. Exemplary environment 100 is a
television entertainment system that facilitates distribution of
content and program data to multiple viewers. The environment 100
includes one or more content providers 102, one or more program
data providers 104, a content distribution system 106, and multiple
client devices 108(1), 108(2), . . . , 108(N) coupled to the
content distribution system 106 via a broadcast network 110.
[0021] Content provider 102 includes a content server 112 and
stored content 114, such as movies, television programs,
commercials, music, and similar audio and/or video content. Content
server 112 controls distribution of the stored content 114 from
content provider 102 to the content distribution system 106.
Additionally, content server 102 controls distribution of live
content (e.g., content that was not previously stored, such as live
feeds) and/or content stored at other locations to the content
distribution system 106.
[0022] Program data provider 104 includes an electronic program
guide (EPG) database 116 and an EPG server 118. The EPG database
116 stores electronic files of program data 120 which is used to
generate an electronic program guide (or, "program guide"). Program
data includes program titles, ratings, characters, descriptions,
actor names, station identifiers, channel identifiers, schedule
information, and so on. The terms "program data" and "EPG data" are
used interchangeably throughout this discussion. For discussion
purposes, an electronic file maintains program data 120 that may
include a program title 122, a program day or days 124 to identify
which days of the week the program will be shown, and a start time
or times 126 to identify the time that the program will be shown on
the particular day or days of the week.
[0023] The EPG server 118 processes the EPG data prior to
distribution to generate a published version of the program data
which contains programming information for all channels for one or
more days. The processing may involve any number of techniques to
reduce, modify, or enhance the EPG data. Such processes might
include selection of content, content compression, format
modification, and the like. The EPG server 118 controls
distribution of the published version of the program data from
program data provider 104 to the content distribution system 106
using, for example, a file transfer protocol (FTP) over a TCP/IP
network (e.g., Internet, UNIX, etc.). Further; the published
version of the program data can be transmitted from program data
provider 102 via a satellite 134 directly to a client device 108 by
use of a satellite dish 134. The EPG data need not received via a
video signal. Rather, the EPG data can be received by the client
device by tuning to a low bandwidth carrier signal that piggybacks
with other signals and is generally transmitted at a lower data
rate than video signals that are transmitted by satellite.
[0024] Content distribution system 106 includes a broadcast
transmitter 128, one or more content processors 130, and one or
more program data processors 132. Broadcast transmitter 128
broadcasts signals, such as cable television signals, across
broadcast network 110. Broadcast network 110 can include a cable
television network, RF, microwave, satellite, and/or data network,
such as the Internet, and may also include wired or wireless media
using any broadcast format or broadcast protocol. Additionally,
broadcast network 110 can be any type of network, using any type of
network topology and any network communication protocol, and can be
represented or otherwise implemented as a combination of two or
more networks.
[0025] Content processor 130 processes the content received from
content provider 102 prior to transmitting the content across
broadcast network 108. Similarly, program data processor 132
processes the program data received from program data provider 104
prior to transmitting the program data across broadcast network
110. A particular content processor 130 may encode, or otherwise
process, the received content into a format that is understood by
the multiple client devices 108(1), 108(2), . . . , 108(N) coupled
to broadcast network 110. Although FIG. 1 shows a single content
provider 102, a single program data provider 104, and a single
content distribution system 106, exemplary environment 100 can
include any number of content providers and/or program data
providers coupled to any number of content distribution
systems.
[0026] Content distribution system 106 is representative of a
headend service that provides EPG data, as well as content, to
multiple subscribers. Each content distribution system 104 may
receive a slightly different version of the program data that takes
into account different programming preferences and lineups. The EPG
server 118 creates different versions of EPG data (e.g., different
versions of a program guide) that include those channels of
relevance to respective headend services, and the content
distribution system 106 transmits the EPG data to the multiple
client devices 108(1), 108(2), . . . , 108(N). In one
implementation, for example, content distribution system 106
utilizes a carousel file system to repeatedly broadcast the EPG
data over an out-of-band (OOB) channel to the client devices
108.
[0027] Client devices 108 can be implemented in a number of ways.
For example, a client device 108(1) receives broadcast content from
a satellite-based transmitter via satellite dish 134. Client device
108(1) is also referred to as a set-top box or a satellite
receiving device. Client device 108(1) is coupled to a television
136(1) for presenting the content received by the client device
(e.g., audio data and video data), as well as a graphical user
interface. A particular client device 108 can be coupled to any
number of televisions 136 and/or similar devices that can be
implemented to display or otherwise render content. Similarly, any
number of client devices 108 can be coupled to a single television
136.
[0028] Client device 108(2) is also coupled to receive broadcast
content from broadcast network 110 and provide the received content
to associated television 136(2). Client device 108(N) is an example
of a combination television 138 and integrated set-top box 140. In
this example, the various components and functionality of the
set-top box are incorporated into the television, rather than using
two separate devices. The set-top box incorporated into the
television may receive broadcast signals via a satellite dish
(similar to satellite dish 134) and/or via broadcast network 110.
In alternate implementations, client devices 108 may receive
broadcast signals via a two-way network 109, such as the Internet,
or any other broadcast medium.
[0029] Each client device 108 runs a universal TV program listing
and selection application that utilizes the TV program data that
can be preloaded into the client device, received by broadcast via
broadcast network 110 such as from content distribution system 106,
or received from two-way network 109. When client device 108
performs the execution of the universal TV program listing and
selection application, a television viewer is enabled to navigate
through an onscreen guide to locate one or more television shows in
a universe of all television shows that can be broadcast. Thus, the
television viewer can select those TV programs that the viewer is
interested in recording when ever they are broadcast on broadcast
network 110. When each such designed TV program does air as
identified in the program data of an EPG, client device 108, in
turn, creates one or more corresponding program events to make the
recordings.
[0030] Each client device 108 also runs an EPG application that
utilizes the program data. The EPG application enables a television
viewer to navigate through an onscreen program guide and locate
television shows of interest to the viewer. With the EPG
application, the television viewer can look at schedules of current
and future programming, set reminders for upcoming programs, and/or
enter instructions to record one or more television shows. The
client device 108, in turn, creates one or more corresponding
program events for the recordings.
[0031] Also included in environment 100 are one or more network
devices, such as a messaging server 150, that communicate with
content distribution system 106 and with client devices 108 (1-N)
through interconnected network 109, such as the Internet.
Interconnected network 109 allows two-way communication between
client devices 108 (1-N) to messaging server 150. This
communication allows client devices 108 (1-N) and/or messaging
server 150 to transmit addressed messages over interconnected
network 109. Each message can contain a message that is addressed
to network resource, such as to an email address at an email
server, to a Web site address of a web site on the Internet, to
facsimile telephone number of a facsimile machine on a telephone
network, or as is conventional with other message delivery
modalities. Each addressed message can contain information of or
relating to client devices 108 (1-N) in the recording of TV
programs that are requested by a viewer. By way of example, and not
by way of limitation, a viewer can use the client device 108, or a
personal computer or other network device to log on to network 109,
such as the Internet, and to communicate with messaging server 150
or other network resource so as to locate any message that has been
sent.
[0032] The messaging server 150 can be a network service, such as a
Web hosting service, that stores data about any client device 108
or its respective viewer. The viewer can keep data at messaging
server 150 that can in turn be accessed by other Web hosting
services on the Internet where the viewer has permitted such
access, which may be of a limited nature. An example of such a data
provider is the Microsoft Network (MSN) of the Microsoft
Corporation of Redmond, Wash. MSN provides a .NET.TM. PASSPORT.RTM.
service that, among other services, stores data that can be
retrieved by other Web services on the Internet that are compatible
with the .NET.TM. PASSPORT.RTM. service. In this example, the
viewer can submit various contact information to messaging server
150. These contact information can be one or more addresses to
which messages are to be sent that contain information of or
relating to the recording of viewer-designed TV programs with
respect to a particular client device 108. When a TV program is
first scheduled to air according to EPG data, and a viewer has
previously indicated a desired to record the TV program with a
particular client device 108, client device 108 can send a message
to messaging server 150 over network 109. Messaging server 150 can
identify the particular client device by the content of the
message, and then transmit the message to the one or more addresses
that the viewer has stored at messaging server 150.
[0033] The process and circumstances under which messaging server
150 transmits messages to the one or more addresses can be
variously configured. For instance, messaging server 150 can be
configured to transmit textual messages during daylight hours to a
cellular telephone number and to transmit the same to a facsimile
machine during evening hours. The configuration of a Web hosting
service, such as messaging server 150, can be operated by the
viewer from a two-way network resource having access to
interconnected network 109, such as a personal computer or a local
set top box client device. Of course, alternative configurations
are contemplated as are conventional with message delivery
modalities.
[0034] Optionally, one or more of the program data providers 104
can include stored on-demand content, such as Video On-Demand (VOD)
movie content. The stored on-demand content can be viewed with a
client device 108 through an onscreen movie guide, for example, and
a viewer can enter instructions to stream a particular movie, or
other stored content, down to a corresponding client device
108.
Exemplary Client Device
[0035] FIG. 2 illustrates an exemplary implementation 200 of a
client device 108 shown as a standalone unit that connects to a
television 136. Client device 108 can be implemented in any number
of embodiments, including as a set-top box, a satellite receiver, a
TV recorder with a hard disk, a game console, an information
appliance, and so forth. Client device 108 includes a wireless
receiving port 202, such as an infrared (IR) or Bluetooth wireless
port, for receiving wireless communications from a remote control
device 204, a handheld input device 206, or any other wireless
device, such as a wireless keyboard. Handheld input device 206 can
be a personal digital assistant (PDA), handheld computer, wireless
phone, or the like. Additionally, a wired keyboard 208 is coupled
to communicate with the client device 108. In alternate
embodiments, remote control device 204, handheld device 206, and/or
keyboard 208 may use an RF communication link or other mode of
transmission to communicate with client device 108.
[0036] Client device 108 receives one or more broadcast signals 210
through from one or more broadcast sources, such as from a
satellite or from a broadcast network. Client device 108 includes
hardware and/or software for receiving and decoding broadcast
signal 210, such as an NTSC, PAL, SECAM or other TV system video
signal. Client device 108 also includes hardware and/or software
for providing the viewer with a graphical user interface by which
the viewer can, for example, access various network services,
configure the client device 108, and perform other functions.
[0037] Client device 108 is capable of communicating through
interconnected network 109 seen in FIG. 1 with other devices via
one or more connections including a conventional telephone link
212, an ISDN link 214, a cable link 216, an Ethernet link 218, an
ADSL and/or DSL link 220, and the like. Client device 108 may use
any one or more of the various communication links 212-220 at a
particular instant to communicate with any number of other devices
and/or to establish a two-way communication with one or more
network resources via network 109 seen in FIG. 1.
[0038] Client device 108 generates video signal(s) 220 and audio
signal(s) 222, both of which are communicated to television 136.
The video signals and audio signals can be communicated from client
device 108 to television 136 via an RF (radio frequency) link,
S-video link, composite video link, component video link, or other
communication link. At reference numeral 203 in FIG. 2, client
device 108 includes one or more lights or other request IDs
identifying the current status of the device or for diagnostic
reports to a viewer. Additionally, the client device may include
one or more control buttons, switches, or other selectable controls
for controlling operation of the device.
[0039] In FIG. 2, television 136 shows a display line 224 which can
be used to inform a viewer that client device 108 has output a
message as will be discussed below with respect to FIG. 7. The
message so output can be issued to the viewer for their own
edification and/or so that the viewer may take any action that may
be warranted. Additionally, a diagnostic visual and/or audible
alarm device or mechanism at reference numeral 203 can emit a
diagnostic representative of that which is displayed at display
line 224. In the alternative, both display line 224 and an alarm
with the diagnostic visual and/or audible alarm device or mechanism
at reference numeral 203 can be used so that the viewer may be
warned visually and/or audibly.
[0040] FIG. 3 illustrates selected components of client device(s)
1.08 shown in FIGS. 1-2. Client device 108 includes one or more
tuners 300(i). Tuners 300(i) are representative of one or more
in-band tuners that tune to various frequencies or channels to
receive television signals, as well as an out-of-band tuner that
tunes to the broadcast channel over which the EPG data is broadcast
to client device 108.
[0041] Client device 108 also includes one or more processors 304
and one or more memory components. Examples of possible memory
components include a random access memory (RAM) 306, a disk drive
308, a mass storage component 310 such as a tape in a tape drive or
removable media component in a removable media drive, and a
non-volatile memory 312 (e.g., ROM, Flash, EPROM, EEPROM, etc.).
Disk drive 308 can have one or a plurality of recordings (i) and
one or a plurality of pause buffers (j) stored thereon. A TV
program Database can be stored on disk drive 308 to keep a
respective show identity (ID) for each TV program that can be
broadcast. The TV program Database can also keep a request ID for
one or more of the show IDs that a viewer wishes to record with
client device 108. Also stored in the TV program Database is a log
file of all TV programs that a household, client device 108, and/or
a particular viewer wants to watch and/or record, or has previously
watched and/or recorded. Recordings (i), pause buffers (j), and the
TV program Database can also be stored in one or more other memory
devices at client device 108, such as in non-volatile memory 312,
RAM 306, and/or storage media 310. Alternatively, recordings (i),
pause buffers (j), and the TV program Database can also be stored
remote from client device 108 at a network resource in
communication with client device 108 through interconnected network
109 seen in FIG. 1.
[0042] Alternative implementations of client device 108 can include
a range of processing and memory capabilities, and may include more
or fewer types of memory components than those illustrated in FIG.
3. For example, full-resource clients can be implemented with
substantial memory and processing resources, including a disk drive
308 to store content for replay by the viewer. Low-resource
clients, however, may have limited processing and memory
capabilities, such as a limited amount of RAM 306, no disk drive
308, and limited processing capabilities. Nevertheless it is
intended that client device 108 include a capability for video
recording, either locally or remotely from client device 108.
[0043] Processor(s) 304 process various instructions to control the
operation of client device 108 and to communicate with other
electronic and computing devices. The memory components (e.g., RAM
306, disk drive 308, storage media 310, and non-volatile memory
312) store various information and/or data such as content, EPG
data, configuration information for client device 108, and/or
graphical user interface information.
[0044] An operating system 314 and one or more application programs
316 may be stored in non-volatile memory 312 and executed on
processor 304 to provide a runtime environment. A runtime
environment facilitates extensibility of client device 108 by
allowing various interfaces to be defined that, in turn, allow
application programs 316 to interact with client device 108. In the
illustrated example, an EPG application 318 is stored in memory 312
to operate on the EPG data and generate a program guide.
[0045] FIG. 3 shows non-volatile memory 312 having a log file
maintenance application 302 which, when executed by processor(s)
304, causes client device 108 to store information in the TV
program database as to those TV programs that a household, client
device 108, and/or a particular viewer has a previously watched
and/or recorded. A report can also be output from client device 108
that characterizes that data in the TV program database. The report
output from client device 108, as well as other communications, can
be communicated in a one or two-way communication through
interconnected network 109 see in FIG. 1. These communications can
be made with various network resources using network interface 324,
wireless interface 322, serial/parallel interface 326, modem 328,
or other well known communication hardware/software algorithms and
protocol for computing devices.
[0046] The application programs 316 that may be implemented at
client device 108, which can function with the log file maintenance
application 302, include a browser to browse the Web so as to view
diagnostics at a Web site, an electronic mail (email) program to
facilitate email to transmit message emails to an email address, a
facsimile transmission program to initiate a facsimile transmission
to a facsimile machine through phone line 212 seen in FIG. 2 so as
to send a facsimile message with respect to client device 108, a
Short Message Service (SMS) transmission program to initiate a
transmission of a text message with respect to client device 108 to
a mobile pager on a page channel, and so on.
[0047] Client device 108 can also include other components
pertaining to a television entertainment system which are not
illustrated in this example for simplicity purposes. For instance,
client device 108 can include a user interface application and user
interface lights, buttons, controls, etc. to facilitate viewer
interaction with the device.
[0048] Client device 108 also includes a decoder 320 to decode a
broadcast video signal, such as an NTSC, PAL, SECAM or other TV
system video signal. Alternatively, a decoder for client device 108
can be implemented, in whole or in part, as a software application
executed by processor(s) 304. Wireless interface 322 allows client
device 108 to receive input commands and other information from a
viewer-operated input device, such as from a remote control device
or from another IR, Bluetooth, or similar RF input device.
[0049] Network interface 324 and serial and/or parallel interface
326 allows client device 108 to interact and communicate with other
electronic and computing devices via various communication links.
Although not shown, client device 108 may also include other types
of data communication interfaces to communicate with other devices.
Modem 328 facilitates client device 108 communications with other
electronic and computing devices via a conventional telephone line.
Components seen at reference numerals 316 and 322-328 facilitate
applications where client device 108 has Internet access or
communicates data on a two-way network.
[0050] Client device 108 also includes an audio output 330 and a
video output 332 that provide signals to a television or other
device that processes and/or presents or otherwise renders the
audio and video data. Although shown separately, some of the
components of client device 108 may be implemented in an
application specific integrated circuit (ASIC). Additionally, a
system bus (not shown) typically connects the various components
within client device 108. A system bus can be implemented as one or
more of any of several types of bus structures, including a memory
bus or memory controller, a peripheral bus, an accelerated graphics
port, or a local bus using any of a variety of bus architectures.
By way of example, such architectures can include an Industry
Standard Architecture (ISA) bus, a Micro Channel Architecture (MCA)
bus, an Enhanced ISA (EISA) bus, a Video Electronics Standards
Association (VESA) local bus, and a Peripheral Component
Interconnects (PCI) bus also known as a Mezzanine bus.
[0051] General reference is been made herein to one or more client
devices, such as client device 108. As used herein, "client device"
means any electronic device having data communications, data
storage capabilities, and/or functions to process signals, such as
broadcast signals, received from any of a number of different
sources.
[0052] A process 400 is seen in FIG. 4 which can be used, for
example, with respect to environments 100, 200 depicted,
respectively, in FIGS. 1-2. FIG. 4 shows a process 400 for
programming a client device to create a program event so as to
record a TV program that is to be broadcast at a broadcast time.
Process 400 includes selecting a TV program to be recorded from a
universe of TV programs at block 402, receiving EPG data at block
404, and determining at block 406 if the EPG data includes the
selected TV program. If not, the process 400 cycles at the EPG
receiving act at block 404 and the determining act in block 406.
When the EPG data is determined at block 406 to include the
selected TV program, a program event in created at block 408.
Process 400 moves to block 410 where a clock, such as a system
clock of the client device, tests whether the EPG date and time of
the TV program to be recorded has arrived. The time can be obtained
from the broadcast received by the client device, by input from the
viewer that is made to the client device, or by other knows means.
If the date or starting time of the TV program has not yet arrived,
the process 400 cycles at block 410 until the date and starting
time have arrived. When the actual time is matched against the
start time of the selected TV program according to the EPG data at
block 410, the selected TV program is recorded at block 412 as it
is being broadcast. A log file is updated at block 414 when the
selected TV program is recorded and also at block 416 when the
recording is played back. Thus, the log file contains a history of
the TV programs that a viewer wants to watch, has recorded, and has
watched. In order to maintain a complete history of all programs
that a viewer has ever watched, the log file is updated each time
that a viewer watches a program. Thus, the log file is updated when
a viewer watches a program "live" as it is being broadcast and well
as when the viewer watches a program after it has been recorded by
the client device.
[0053] Historical and other information can be kept in the log file
by the household in which multiple viewers watch TV programs, by
the client device in a household of multiple client devices, and/or
by the viewer in household of multiple viewers. The log file can
include information about each specific show that is to be
recorded, has been recorded, or has been watched. A viewer can
request a log file history report to view the contents thereof, or
a report on the log file history can be automatically be generated
and output by the client device, as seen at blocks 420 and 422 of
FIG. 4 in process 400. The report contents can be data that has
been compiled and formatted by a client device for output in a
suitable format.
[0054] The order in which the method is described with respect to
process 400 is not intended to be construed as a limitation, and
any number of the described method blocks can be combined in any
order to implement the method. Furthermore, the method can be
implemented in any suitable hardware, software, firmware, or
combination thereof.
[0055] The client device can be a standalone device that outputs to
a TV receiver. Alternatively, the client device can be in
communication with other peripheral devices and/or with one or more
network resources through an interconnected network. As such, the
client device can output in various techniques, methods, or
algorithms including, but not limited to, an audio output, a visual
output, and by way of a transmission to an address on the
interconnected network. In the case of the transmission, the
transmission can include an addressed message. The transmission of
the message can be to several different addresses including, but
not limited to, transmitting the message for output at a printer
having the address, transmitting the message for output on a
television receiver having the address, transmitting the message
for a facsimile transmission on a circuit switched network to a
facsimile machine associated with a facsimile telephone number
corresponding to the address, transmitting the message for a
circuit switched network in a telephone transmission to a telephone
number corresponding to the address, transmitting the message for a
packet switched network to a network resource having the address as
a publication to a Web site hosted by the network resource,
transmitting the message in packets for a packet switched network
to a network resource having the address, transmitting the message
as email to an email address at an email server serving the
address, and transmitting the message for an SMS transmission to a
mobile pager on a page channel.
[0056] The message output by the client device can be written as an
entry to the log file. The client device can then optionally output
all or a portion of the log file. As such, a complete history of
the log file, including any addressed messaging, can be established
and reported for each TV program selected, recorded and/or watched
by a viewer through the client device.
[0057] With reference to FIG. 5, an exemplary system 500 for
implementing entertainment architecture includes client device 108
in communication with television 136. Television 136 has display
lines 12 through 26 where there is displayed an example of a
program guide showing part of a channel programming lineup for
Friday, Dec. 31, 2010. The program guide is generated with an EPG
application in client device 108 with program data, where part of
the program data is displayed on television 136. The program guide
provides a viewer with a program title, the associated local
channel number and/or television broadcasting company that will
broadcast the program, a time of the day that the program will be
broadcast, and the respective show ID. Each TV program in the EPG
can be matched to its corresponding show ID by the publisher of the
EPG, one or more program data providers, and/or by an entertainment
industry service provider or other entity such as a Web hosting
service.
[0058] The program guide assists a viewer to identify and select a
program title that the viewer wishes to view or record if the
program is currently being broadcast, access program data to learn
more about the program, and/or enter a request to record the
program if the program is to air in the future. A viewer can move
within the program guide, using an input device such as a remote
control device, to input control commands to client device 108.
[0059] In display line 12, an explanation for the display on
television 136 is given that the display shows a portion of the EPG
channel lineup for the date Friday, Dec. 31, 2010. Display line 14,
in the first column thereof, shows scrollable user interface icons.
The first icon in the first column of display line 14 indicates
that a viewer can scroll vertically to show various channels for
the 6:00 P.M. to 9:00 P.M. time period. The second icon in the
second column of display line 14 indicates that the viewer can scan
chronologically forward and backwards for each of the displayed
channels 2 through 9. The second, third and fourth columns indicate
the timeslots 6 P.M., 7 P.M., and 8 P.M.
[0060] Display line 16 shows the lineup for channel 2, the "ABC"
television broadcast network. As seen in the second column of
display line 16 two programs are indicated, namely the Late News at
6 P.M. and the Late Show at 7 P.M. Display line 17 shows the lineup
for channel 3, the "HBO" television broadcast network to be a TV
program titled "Superman X" that starts at 6:00 PM and continues to
9:00 PM. Display line 24 for the display on television 136 shows
the channel 7 line up for the CBN network. The line up includes
several chronologically adjacent TV programs to be broadcast on
Channel 7, including the Hunting News to begin at 6:00 P.M. and to
continue until 7:00 P.M., the Sport Show B to begin at 7:00 P.M.
and to continue until 8:00 P.M., and the Fishing News to begin at
8:00 P.M. Display line 26 shows that Sport Show A begins at 6 P.M.
and continues until 7 P.M. on channel 9 on the ESPN television
broadcast network. A viewer can use an input device, such as those
seen at reference numerals 204-208 in FIG. 2, to select one or more
of the TV program of the EPG seen in FIG. 5 to be recorded.
[0061] With reference to FIG. 6, the exemplary system 500 shows
television 136 having a display of a table in display lines 10
through 26 where there is shown a portion of a universal list of TV
programs that can be broadcast. Column 502 gives the title of each
of the TV programs in display lines 14 through 27. Column 504 gives
the episode. The episode can be, by way of example and not by way
of limitation, the sequential number is a series of related
broadcasts, such as installments of a documentary, games in a
sports series, or a derivative of an original work. Display line 18
lists the TV program "Star Is Bored" has having no sequel. Column
506 gives the corresponding show ID to each of the TV programs in
display lines 14 through 27. Each show ID is unique to each TV
program among TV programs that can be announced in an EPG. Each
show ID can be created and assigned to a respective TV program by
an entertainment industry service provider, or other entity. The
show IDs can the be made available on the Internet, such as via a
Web hosting service. A client device, such as a set top box or
digital video recorder, can communicate with the Web hosting
service to obtain the show IDs.
[0062] Display line 10 in FIG. 6 shows scrollable user interface
icons. The first and second icons at reference numerals 508 and 510
in the first column of display line 10 indicate that a viewer can,
respectively, scroll vertically down and up to display TV programs
that can be selected for recording. Icons 508, 510 can be activated
using an input device that outputs to client device 108 so as to
initiate an operation that effects a change in the output from
client device 108 for display on television 136.
[0063] With respect to FIG. 7, a report for the viewer "Peter" is
output, as designed at display line 2. There are displayed three
(3) diagnostics on television 136. The first diagnostic is seen in
FIG. 7 at display lines 4 through 6 and is indicative that a viewer
demand report and/or an automatically generated report has been
output by client device 108. The report contains data compiled from
a log file with respect to the viewing totals of the viewers Peter
and Tom. Peter is reported to have watched 26.5 hours of television
of which 93% was within the genre of sports and the remainder
within that of comedy. The statistics compiled on Tom from the log
file reveal that a majority of his viewing has been on the HBO
channel with remainder being on the CBN channel. A client device,
designated as "Living Room" in display line 6 is reported to have
output 5.75 hours of programming half of which was rated G and the
same amount for the rating PG-13.
[0064] Display lines 8-12 show that the client. device has computed
data in the log file so as to report that Peter has watched each
prior episode of Matinee Mystery and that Peter will have seen all
of the installments if he also watches the final episode on channel
2 the following Monday. In this implementation, the report is
compiled so as to coordinate an EPG with a log file containing a
viewer's viewing history against a database containing a universe
of TV programs that can be broadcast. As such, the client device
determined from the database of the universe list of TV programs
that particular episodes of Matinee Mystery can and/or are
available to be broadcast. The log file of the viewers viewing
history is compared to the particular episodes to determine those
episodes that Peter has not yet recorded and/or watched. The client
device can then examine EPG data to which it has access to
determine if and when the unwatched particular episodes will be
broadcast. When so determined, the client device addresses
messages, via telephone and email, to keep the viewer informed.
Similar to the report in display lines 8-12, display lines 14-18
show a report derived from similar data by client device 108 that
reports the viewer Peter to have seen respective percentages of
home and away games after Peter watches a forthcoming broadcast of
Sports Show B.
[0065] Implementations extend to methods, apparatus, client
devices, computer programs, and systems for selecting TV programs
for recording prior to their announced broadcast in an EPG. The
implementations may comprise a special purpose or general purpose
computer including various computer hardware as discussed by way of
example in greater detail above. Implementations also include
computer-readable media for carrying or having computer-executable
instructions or data structures stored thereon. Such
computer-readable media can be any available media which can be
accessed by a general purpose or special purpose computer. One
example of a special purpose computer is a set top box. By way of
example, and not limitation, such computer-readable media can
comprise RAM, ROM, EEPROM, CD-ROM or other optical disk storage,
magnetic disk storage or other magnetic storage devices, or any
other medium which can be used to carry or store desired program
code means in the form of computer-executable instructions or data
structures and which can be accessed by a general purpose or
special purpose computer. When information is transferred or
provided over a network or another communications connection
(either hardwired, wireless, or a combination of hardwired or
wireless) to a computer, the computer properly views the connection
as a computer-readable medium. Thus, any such a connection is
properly termed a computer-readable medium. Combinations of the
above should also be included within the scope of computer-readable
media. Computer-executable instructions comprise, for example,
instructions and data which cause a general purpose computer,
special purpose computer, or special purpose processing device to
perform a certain function or group of functions.
[0066] The Figures and the foregoing discussion are intended to
provide a brief, general description of a suitable computing
environment in which the invention may be implemented. Although not
required, the invention has been described in the general context
of computer-executable instructions, such as program modules, being
executed by computers in network environments. Generally, program
modules include routines, programs, objects, components, data
structures, etc. that perform particular tasks or implement
particular abstract data types. Computer-executable instructions,
associated data structures, and program modules represent examples
of the program code means for executing steps of the methods
disclosed herein. The particular sequence of such executable
instructions or associated data structures represent examples of
corresponding acts for implementing the functions described in such
steps.
[0067] Those skilled in the art will appreciate that the invention
may be practiced in network computing environments with many types
of computer system configurations, including set top boxes,
personal computers, hand-held devices, multi-processor systems,
microprocessor-based or programmable consumer electronics, network
PCs, minicomputers, mainframe computers, and the like. The
invention may also be practiced in distributed computing
environments where tasks are performed by local and remote
processing devices that are linked (either by hardwired links,
wireless links, or by a combination of hardwired or wireless links)
through a communications network. In a distributed computing
environment, program modules may be located in both local and
remote memory storage devices.
[0068] Although the invention has been described in language
specific to structural features and/or methodological acts, it is
to be understood that the invention defined in the appended claims
is not necessarily limited to the specific features or acts
described. Rather, the specific features and acts are disclosed as
exemplary forms of implementing the claimed invention.
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