A smart broadcast program recording padding and scheduling system provides a system for adjusting the start and end times of a broadcast program's recording schedule that has a predetermined start and end broadcast time and resolving any conflicts arising from conflicting scheduled program recordings. An on screen program guide is displayed to the viewer via a monitor or television that lists the predetermined scheduled broadcast times and channels of a plurality of broadcast programs. The viewer selects a particular broadcast program to record and the invention schedules the broadcast program to be recorded by inserting the program's information such as program identifier, start and end times, and storage duration into a recording schedule database. The viewer adjusts the scheduled start and/or end recording times for a specific program or series of programs by specifying the time increment (padding) to add or subtract from the start and/or end recording times and the invention adjusts the recording schedule for the program(s) using the padding values. Conflicts that arise from adjusted recording schedules are resolved using a priority scheme. conflicting padding values and start and end recording times are adjusted using threshold values or by elimination. Broadcast programs are recorded onto a persistent storage device when the recording schedule indicates that it is time to do so.
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0. 31. A method, comprising:
receiving a user command to create a wish list for a content that may be shown in the future, the wish list specifying search criteria for the content;
allowing the user to select between an option of either adding or subtracting a first relative padding value specified in a first entry field to a content start recording time for content meeting the search criteria in the wish list and/or select between an option of either adding or subtracting a second relative padding value specified in a second entry field to a content end recording time for content meeting the search criteria in the wish list, the first relative padding value is displayed in the first entry field when the user specifies the first relative padding value to adjust the content start recording time in the first entry field and the second relative padding value is displayed in the second entry field when the user specifies the second relative padding value to adjust the content end recording time in the second entry field;
periodically searching a program guide information using the search criteria for content in the program guide information that meet the search criteria;
in response to finding content in that meet the search criteria, automatically setting a content start recording time for the found content to a start availability time and setting a content end recording time for the found content to an end availability time;
adjusting the content start recording time for the found content using the first relative padding value specified by the user in the first entry field and/or adjusting the content end recording time for the found content using the second relative padding value specified by the user in the second entry field;
scheduling a recording for the found content;
recording, according to the scheduled recording, the found content on at least one storage device in a digital format.
0. 46. An apparatus, comprising:
a receiver subsystem that receives a user command to create a wish list for a content that may be shown in the future, the wish list specifying search criteria for the content;
a user interface that allows the user to select between an option of either adding or subtracting a first relative padding value specified in a first entry field to a content start recording time for content meeting the search criteria in the wish list and/or select between an option of either adding or subtracting a second relative padding value specified in a second entry field to a content end recording time for content meeting the search criteria in the wish list, the first relative padding value is displayed in the first entry field when the user specifies the first relative padding value to adjust the content start recording time in the first entry field and the second relative padding value is displayed in the second entry field when the user specifies the second relative padding value to adjust the content end recording time in the second entry field;
a search subsystem that periodically searches a program guide information using the search criteria for content in the program guide information that meet the search criteria;
a recording time subsystem that in response to finding content in that meet the search criteria, automatically sets a content start recording time for the found content to a start availability time and setting a content end recording time for the found content to an end availability time;
an adjusting subsystem that adjusts the content start recording time for the found content using the first relative padding value specified by the user in the first entry field and/or adjusting the content end recording time for the found content using the second relative padding value specified by the user in the second entry field;
a scheduling subsystem that schedules a recording for the found content;
a recording subsystem that records, according to the scheduled recording, the found content on at least one storage device in a digital format.
1. A method for adjusting start and end times of a program recording schedule and resolving recording conflicts in a computer environment, comprising:
selecting a particular program to record in response to user input, the particular program has a start and end availability time;
setting a program start recording time for the particular program to the start availability time and setting a program end recording time for the particular program to the end availability time;
allowing the user to select between an option of either adding or subtracting a first relative padding value specified in a first entry field to the program start recording time for the particular program and/or select between an option of either adding or subtracting a second relative padding value specified in a second entry field to the program end recording time for the particular program, the first relative padding value is displayed in the first entry field when the user specifies the first relative padding value to adjust the program start recording time in the first entry field and the second relative padding value is displayed in the second entry field when the user specifies the second relative padding value to adjust the program end recording time in the second entry field;
adjusting the program start recording time for the particular program using the first relative padding value specified by the user in the first entry field and/or adjusting the program end recording time for the particular program using the second relative padding value specified by the user in the second entry field;
determining whether any programs that have been previously scheduled for recording have start or end recording times that conflict with the particular program's adjusted program start recording time and/or adjusted program end recording time;
resolving any conflicts determined by the determining step by automatically adjusting recording characteristics for the particular program or for a conflicting program that was previously scheduled for recording;
scheduling a recording for the particular program; and
storing a program on at least one storage device in a digital format.
16. An apparatus for adjusting start and end times of a program recording schedule and resolving recording conflicts in a computer environment, comprising:
a selection subsystem that selects a particular program to record in response to user input, the particular program has a start and end availability time;
a recording time subsystem that sets a program start recording time for the particular program to the start availability time and sets a program end recording time for the particular program to the end availability time;
a user interface that allows the user to select between an option of either adding or subtracting a first padding value specified in a first entry field to the program start recording time for the particular program and/or select between an option of either adding or subtracting a second padding value specified in a second entry field to the program end recording time for the particular program, without the user specifying the program start recording time when the user specifies the first padding value to adjust the program start recording time in the first entry field or edit the program end recording time when the user specifies the second padding value to adjust the program end recording time in the second entry field;
an adjusting subsystem that adjusts the program start recording time for the particular program using the first relative padding value specified by the user in the first entry field and/or adjusting the program end recording time for the particular program using the second relative padding value specified by the user in the second entry field;
a conflict checking subsystem that determines whether any programs that have been previously scheduled for recording have start or end recording times that conflict with the particular program's adjusted program start recording time and/or adjusted program end recording time;
a resolution subsystem that automatically resolves any conflicts determined by the conflict checking subsystem by automatically adjusting recording characteristics for the particular program or for a conflicting program that was previously scheduled for recording;
a scheduling subsystem that schedules a recording for the particular program; and
a recording subsystem that stores a program on at least one storage device in a digital format.
2. The method of
3. The method of
4. The method of
5. The method of
6. The method of
7. The method of
9. The method of
receiving program guide information;
wherein the program guide information contains program information and associated availability times; and
wherein the determining step reviews scheduled program recordings for conflicts using the program guide information.
10. The method of
displaying a program guide to the user;
wherein the user selects the particular program from the program guide.
11. The method of
12. The method of
playing back a program stored on the at least one storage device to the user.
13. The method of
wherein a recording schedule contains program identifiers and start and end times of programs to be recorded, and
wherein the recording step records programs on the at least one storage device according to the recording schedule.
14. The method of
15. The method of
17. The apparatus of
18. The apparatus of
19. The apparatus of
20. The apparatus of
21. The apparatus of
22. The apparatus of
23. The apparatus of
24. The apparatus of
a program guide subsystem that receives program guide information;
wherein the program guide information contains program information and associated availability times; and
wherein the conflict checking subsystem reviews scheduled program recordings for conflicts using the program guide information.
25. The apparatus of
a program guide display subsystem that displays a program guide to the user;
wherein the user selects the particular program from the program guide.
26. The apparatus of
27. The apparatus of
a playback subsystem that plays back a program stored on the at least one storage device to the user.
28. The apparatus of
a recording schedule;
wherein the recording schedule contains program identifiers and start and end times of programs to be recorded; and
wherein the recording subsystem records programs on the at least one storage device according to the recording schedule.
29. The apparatus of
30. The apparatus of
0. 32. The method of claim 31, further comprising:
determining whether any content that have been previously scheduled for recording have start or end recording times that conflict with the found content's adjusted program start recording time and/or adjusted program end recording time;
resolving any conflicts determined by the determining step by automatically adjusting recording characteristics for the found content or for a conflicting content that was previously scheduled for recording.
0. 33. The method of claim 32, wherein the resolving step resolves a conflict using a priority scheme for each previously scheduled program recording.
0. 34. The method of claim 33, wherein priorities of previously scheduled content recordings are determined explicitly and implicitly by a user's actions.
0. 35. The method of claim 32, wherein the resolving step automatically adjusts conflicting adjusted content start recording time and/or adjusted content end recording time for the found content to resolve any determined conflicts.
0. 36. The method of claim 35, wherein the amount of the adjustment of the conflicting adjusted content start recording time and/or adjusted content end recording time for the found content is determined using a threshold value.
0. 37. The method of claim 32, wherein the resolving step automatically adjusts any conflicting previously scheduled start and/or end recording times of content in favor of the adjusted content start recording time and/or the adjusted content end recording time for the found content to resolve any determined conflicts.
0. 38. The method of claim 37, wherein the amount of the adjustment of any conflicting previously scheduled start and/or end recording times of content is determined using a threshold value.
0. 39. The method of claim 32, wherein the determining step notifies the user of a conflict.
0. 40. The method of claim 31, further comprising:
receiving program guide information;
wherein the program guide information contains content information and associated availability times.
0. 41. The method of claim 31, further comprising:
displaying a list of found content scheduled for recording.
0. 42. The method of claim 31, further comprising:
receiving a user command specifying a desired amount of time to be added to or subtracted from an end recording time while a corresponding content is being recorded;
adjusting the end recording time according to the user command.
0. 43. The method of claim 31, further comprising:
playing back a content stored on the at least one storage device.
0. 44. The method of claim 32, wherein the resolving step automatically cancels conflicting padding in a previously scheduled start and/or end recording time of a content and also cancels conflicting padding in the program start recording time and/or program end recording time for the found content to resolve a conflict.
0. 45. The method of claim 32, wherein the resolving step automatically reschedules recording of a conflicting previously scheduled content to resolve a conflict.
0. 47. The apparatus of claim 46, further comprising:
a conflict checking subsystem that determines whether any content that have been previously scheduled for recording have start or end recording times that conflict with the found content's adjusted program start recording time and/or adjusted program end recording time;
a resolution subsystem that automatically resolves any conflicts determined by the determining step by adjusting recording characteristics for the found content or for a conflicting content that was previously scheduled for recording.
0. 48. The apparatus of claim 47, wherein the resolution subsystem resolves a conflict using a priority scheme for each previously scheduled program recording.
0. 49. The apparatus of claim 48, wherein priorities of previously scheduled content recordings are determined explicitly and implicitly by a user's actions.
0. 50. The apparatus of claim 47, wherein the resolution subsystem automatically adjusts conflicting adjusted content start recording time and/or adjusted content end recording time for the found content to resolve any determined conflicts.
0. 51. The apparatus of claim 50, wherein the amount of the adjustment of the conflicting adjusted content start recording time and/or adjusted content end recording time for the found content is determined using a threshold value.
0. 52. The apparatus of claim 47, wherein the resolution subsystem automatically adjusts any conflicting previously scheduled start and/or end recording times of content in favor of the adjusted content start recording time and/or the adjusted content end recording time for the found content to resolve any determined conflicts.
0. 53. The apparatus of claim 52, wherein the amount of the adjustment of any conflicting previously scheduled start and/or end recording times of content is determined using a threshold value.
0. 54. The apparatus of claim 47, wherein the conflict checking subsystem notifies the user of a conflict.
0. 55. The apparatus of claim 46, further comprising:
a program guide subsystem that receives program guide information;
wherein the program guide information contains content information and associated availability times.
0. 56. The apparatus of claim 46, further comprising:
a found content display subsystem that displays a list of found content scheduled for recording.
0. 57. The apparatus of claim 46, wherein the receiver subsystem receives a user command specifying a desired amount of time to be added to or subtracted from an end recording time while a corresponding content is being recorded; and wherein the recording subsystem adjusts the end recording time according to the user command.
0. 58. The apparatus of claim 46, further comprising:
a playback subsystem that plays back a content stored on the at least one storage device.
0. 59. The apparatus of claim 47, wherein the resolution subsystem automatically cancels conflicting padding in a previously scheduled start and/or end recording time of a content and also cancels conflicting padding in the program start recording time and/or program end recording time for the found content to resolve a conflict.
0. 60. The apparatus of claim 47, wherein the resolution subsystem automatically reschedules recording of a conflicting previously scheduled content to resolve a conflict.
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This application is a Continuation-in-part of U.S. patent application Ser. No. 10/168,976, filed on Jun. 21, 2002; and claims benefit of U.S. Provisional Patent Application Ser. No. 60/375,623, filed on Apr. 26, 2002.The present application claims the benefit as a Reissue Application of application Ser. No. 10/425,308, filed Apr. 28, 2003, now U.S. Pat. No. 7,877,768, issued Jan. 25, 2011, which claims benefit as a Continuation in Part of U.S. patent application Ser. No. 10/168,976, filed Jun. 21, 2002, now U.S. Pat. No. 7,882,520, which claims benefit as a 371 of International Patent Appn Ser. No. PCT/US00/35188, filed Dec. 20, 2000, and also claims benefit of U.S. Provisional Patent Appn. Ser. No. 60/375,623, filed Apr. 26, 2002, the entire contents of all of the foregoing are hereby incorporated by reference as if fully set forth herein, under 35 U.S.C. §120. Applicants hereby rescind any disclaimer of claim scope in the parent application(s) or the prosecution history thereof and advise the USPTO that the claims in this application may be broader than any claim in the parent application(s).
1. Technical Field
The invention relates to the storing and viewing of television program material in a computer environment. More particularly, the invention relates to adjusting the scheduling of television program recordings to adapt to schedule variations and resolving any conflicts arising from such adjustments.
2. Description of the Prior Art
Video Cassette Recorders (VCR) have the ability to record television program material onto video tape. The typical VCR restricts the viewer to manually setting recording start and end times. These time frames are static and do not change unless the viewer edits or deletes the schedule.
Products such as Gemstar Development Corp.'s VCR Plus allow the viewer to record a television program by entering a code number into the VCR. The VCR automatically sets itself to record a particular channel and start and end time specified by the code number. The code number is obtained from a television program guide printed in a newspaper or periodical.
The VCR Plus approach has the same drawback as the manual recordings. The start and end times of the recording period are fixed. The manual and VCR Plus approaches do not take into the account the fact that television broadcasting stations are not always punctual and many begin their scheduled programs early or late.
The introduction of Digital Video Recorders (DVR) have revolutionized the television recording industry. DVRs store program material onto a storage medium that is easily accessible, reusable, and the recording does not degrade over time as with video tapes.
The current generation of DVRs allow the viewer to select the programs that he wants to record from an on-screen television program guide. The user simply highlights the program name and presses a button on his remote control. The DVR schedules the recording of the program at the scheduled time and duration.
This approach also has the drawback of not taking into account variations in the program schedules. Sports games such as football and baseball go into overtime and the viewer is unable to adjust the recording of the program to take the extra time into account.
It would be advantageous to provide a smart broadcast program recording padding and scheduling system that allows the user to specify the amount of time to add and/or subtract from the start and end times of a preset recording schedule for a particular program. It would further be advantageous to provide a smart broadcast program recording padding and scheduling system that resolves recording schedule conflicts by adjusting conflicting padding amounts and start and end times for scheduled recordings.
The invention provides a smart broadcast program recording padding and scheduling system. The system allows the user to specify the time increment to add and/or subtract from the start and end times of a preset recording schedule for a particular program. In addition, the invention provides a system that resolves recording schedule conflicts by adjusting conflicting padding amounts and start and end times for scheduled recordings.
A client device, typified in U.S. Pat. No. 6,233,389 owned by the Applicant, provides functionality typically associated with the present generation of Digital Video Recorders (DVR), such as the storage of a large amount of video content, ability to choose and play this content on demand, and full “VCR-like” control of the delivery of the content.
The invention provides a system for adjusting the start and end times of a broadcast program's recording schedule that has a predetermined start and end broadcast time and resolving any conflicts arising from conflicting scheduled program recordings. An on screen program guide is displayed to the viewer via a monitor or television. The program guide lists the predetermined scheduled broadcast times and channels of a plurality of broadcast programs.
The viewer selects a particular broadcast program to record from the program guide using a remote input device. The invention schedules the broadcast program to be recorded by inserting the program's information such as program identifier, start and end times, and storage duration into a recording schedule database.
The invention allows the viewer to adjust the scheduled start and/or end recording times for a broadcast program. The viewer specifies the time increment (padding) to add or subtract from the start and/or end recording times of a specific program or series of programs. The invention adjusts the recording schedule for the program(s) using the padding values.
Conflicts that arise from adjusted recording schedules are resolved using a priority scheme. The viewer determines the priority of series of programs while the invention determines the priority of other programs based on the viewer's actions. Conflicting padding values and start and end recording times are adjusted using threshold values or by elimination.
Broadcast programs are recorded onto a persistent storage device when the recording schedule indicates that it is time to do so. The viewer is allowed to adjust the end recording time of a program while the program is being recorded.
The viewer can randomly access the recorded programs on the persistent storage device for play back.
Other aspects and advantages of the invention will become apparent from the following detailed description in combination with the accompanying drawings, illustrating, by way of example, the principles of the invention.
The invention is embodied in a smart broadcast program recording padding and scheduling system in a computer environment. A system according to the invention allows the user to specify the time increment to add and/or subtract from the start and end times of a preset recording schedule for a particular program. In addition, the invention provides a system that resolves recording schedule conflicts by adjusting conflicting padding amounts and start and end times for scheduled recordings.
The invention provides a system for adjusting the start and end times of a broadcast program's recording schedule that has a predetermined start and end broadcast time. Electronic program guides list predetermined scheduled broadcast times and channels of all of the television broadcast programs that are available to a particular geographic area. The time that a television program is actually broadcasted differs in many cases from the predetermined schedule. The invention allows the viewer to adjust the scheduled program recording times to the actual situation. The invention resolves conflicts caused by adjusted recording schedules by adjusting conflicting padding values and also adjusting conflicting start and end recording times.
The Database of Television Viewing Information
The viewing object database provides a consistent abstract software access model for the objects it contains, independent of and in parallel with the replication activities described herein. By using this interface, applications may create, destroy, read, write and otherwise manipulate objects in the database without concern for underlying activities and with assurance that a consistent and reliable view of the objects in the database and the relationships between them is always maintained.
Basic Television Viewing Object Principles
Referring to
The attributes of an object fall into two groups: “basic” attributes, which are supplied by the creator or maintainer of the viewing object; and “derived” attributes, which are automatically created and maintained by mechanisms within the database. Basic attributes describe properties of the object itself; derived attributes describe the relationships between objects. Basic attributes are replicated between databases, whereas derived attributes are not.
With respect to
There is one special object type predefined for all databases called the schema type. Each schema supported by the database is represented by a schema object. This allows an application to perform “introspection” on the database, i.e., to dynamically discover what object types are supported and their schema. This greatly simplifies application software and avoids the need to change application software when schemas are changed, added or deleted. Schema objects are handled the same as all other viewing objects under the methods of this invention.
Referring again to
One specific type of viewing object is the “directory” object. A directory object maintains a list of object IDs and an associated simple name for the object. Directory objects may include other directory objects as part of the list, and there is a single distinguished object called the “root” directory. The sequence of directory objects traversed starting at the root directory and continuing until the object of interest is found is called a “path” to the object; the path thus indicates a particular location within the hierarchical namespace created among all directory objects present in the database. An object may be referred to by multiple paths, meaning that one object may have many names. The reference count on a viewing object is incremented by one for each directory which refers to it.
Methods for the Maintenance of Database Consistency and Accuracy
One of the features of a preferred embodiment of the invention is to insure that each database replica remains internally consistent at all times, and that this consistency is automatically maintained without reference to other databases or the need for connection to the central site. There is no assurance that transmission or collection operations happen in a timely manner or with any assured periodicity. For instance, a client system may be shut off for many months; when a transmission to the system is finally possible, the replication of objects must always result in a consistent subset of the server database, even if it is not possible to transmit all objects needed to bring the central and client databases into complete synchronization.
Even more serious, there can be no guarantee of a stable operational environment while the database is in use or being updated. For example, electrical power to the device may cease. This invention treats all database updates as “transactions”, meaning that the entire transaction will be completed, or none of it will be completed. The specific technique chosen is called “two-phase commit”, wherein all elements of the transaction are examined and logged, followed by performing the actual update. One familiar in the art will appreciate that a standard journaling technique, where the transaction is staged to a separate log, combined with a roll-forward technique which uses the log to repeat partial updates that were in progress when the failure occurred, is sufficient for this purpose.
One required derived attribute of every object is the “version”, which changes with each change to the object; the version attribute may be represented as a monotonically increasing integer or other representation that creates a monotonic ordering of versions. The schema for each object that may be replicated includes an attribute called “source version” which indicates the version of the object from which this one was replicated.
Transmission of a viewing object does not guarantee that every client receives that object. For instance, while the object is being broadcast, external factors such as sunspots, may destroy portions of the transmission sequence. Viewing objects may be continually retransmitted to overcome these problems, meaning that the same object may be presented for replication multiple times. It is inappropriate to simply update the database object each time an object to be replicated is received, as the version number will be incremented although no change has actually occurred. Additionally, it is desirable to avoid initiating a transaction to update an object if it is unnecessary; considerable system resources are consumed during a transaction.
Two approaches are combined to resolve this problem. First, most objects will have a basic attribute called “expiration”. This is a date and time past which the object is no longer valid, and should be discarded. When a new object is received, the expiration time is checked, and the object discarded if it has expired. Expiration handles objects whose transmission is delayed in some fashion, but it does not handle multiple receptions of the same unexpired object.
The source version attribute handles this problem. When a viewing object is transmitted, this attribute is copied from the current version attribute of the source object. When the viewing object is received, the source version of the received object is compared with the source version of the current object. If the new object has a higher source version attribute, it is copied over the existing object, otherwise it is discarded.
It is assumed that a much greater number of viewing objects are transmitted than are of interest to any particular client system. For example, a “channel” viewing object which describes the channels on a particular cable system is of no interest to clients attached to other cable systems. Because of the overhead of capturing and adding new objects to the database, it would be advantageous for received objects to be filtered on other attributes in addition to those described above. The invention accomplishes this by using a filtering process based on object type and attribute values. In one implementation, this filtering process is based on running executable code of some kind, perhaps as a sequence of commands, which has been written with specific knowledge of various object types and how they should be filtered.
In a preferred embodiment of the invention, a “filter” object is defined for each object type which indicates what attributes are required, should not be present, or ranges of values for attributes that make it acceptable for addition to the database. One skilled in the art will readily appreciate that this filter object may contain executable code in some form, perhaps as a sequence of executable commands. These commands would examine and compare attributes and attribute values of object being filtered, resulting in an indication of whether the object should be the subject of further processing.
Viewing objects are rarely independent of other objects. For example, a “showing” object (describing a specific time on a specific channel) is dependent on a “program” object (describing a specific TV program). One important aspect of maintaining consistency is to insure that all dependent objects either already exist in the database or are to be added as part of a single transaction before attempting to add a new viewing object. This is accomplished using a basic attribute of the new viewing object called the “dependency” attribute, which simply lists the object IDs and source versions of objects that the new object is dependent on. Clearly, new versions of an object must be compatible, in the sense that the schema defining new versions be the same or have a strict superset of the attributes of the original schema.
When a new viewing object is received, the database is first checked to see if all dependencies of that object are present; if so, the object is added to the database. Otherwise, the new object is “staged”, saving it in a holding area until all dependent objects are also staged. Clearly, in order for a new set of viewing objects to be added to the database, the dependency graph must be closed between objects in the staging area and objects already existing in the database, based on both object ID and source version. Once closure is achieved, meaning all dependent objects are present, the new object(s) are added to the database in a single atomic transaction.
Naming and Finding Television Viewing Objects
Directory objects have been described previously. Referring to
One way in which a path to an object may be established is by specifying a “pathname” basic attribute on the object. The object is added to the database, and directory objects describing the components of the path are created or updated to add the object. Such naming is typically used only for debugging the replication mechanisms. Setting explicit paths is discouraged, since the portions of the central database replicated on each client system will be different, leading to great difficulty in managing pathnames among all replicas of the database.
A preferred method for adding an object to the database namespace is called “indexing”. In a preferred embodiment of the invention, an “indexer” object is defined for each object type which indicates what attributes are to be used when indexing it into the database namespace. One skilled in the art will readily appreciate that this indexer object may contain executable code in some form, perhaps as a sequence of executable commands. These commands would examine and compare attributes and attribute values of object being indexed, resulting in an indication of where the object should be located in the namespace.
Based on the object type, the indexer examines a specific set of attributes attached to the object. When such attributes are discovered the indexer automatically adds a name for the object, based on the value of the attribute, within the hierarchical namespace represented by the graph of directories in the database. Referring again to
A derived attribute is maintained for each object listing the directory objects which refer to this object 404. As the indexer adds paths to the namespace for this object, it adds the final directory ID in the path to this list. This insures closure of the object graph—once the object has been found, all references to that object within the database are also found, whether they are paths or dependencies.
This unique and novel method of adding objects to the database has significant advantages over standard approaches. The indexer sorts the object into the database when it is added. Thus, the search for the object associated with a particular path is a sequence of selections from ordered lists, which can be efficiently implemented by one familiar with the art.
Deleting Objects from the Database
While the rules for adding objects to the database are important, the rules for removing,objects from the database are also important in maintaining consistency and accuracy. For example, if there were no robust rules for removing objects, the database might grow unboundedly over time as obsolete objects accumulate.
The cardinal rule for deleting objects from the database is based on reference counting; an object whose reference count drops to zero is summarily deleted. For instance, this means that an object must either be referred to by a directory or some other object to persist in the database. This rule is applied to all objects in the closed dependency graph based on the object being deleted. Thus, if an object which refers to other objects (such as a directory) is deleted, then the reference count on all objects referred to is decremented, and those objects similarly deleted on a zero count, and so forth.
There is also an automatic process which deletes objects from the database called the “reaper”. Periodically, the reaper examines all objects in the database, and depending on the object type, further examines various attributes and attribute values to decide if the object should be retained in the database. For example, the expiration attribute may indicate that the object is no longer valid, and the reaper will delete the object.
In the preferred embodiment, using a method similar to (or perhaps identical to) the filtering and indexing methods described above, the reaper may instead access a reaper object associated with the object type of the current object, which may contain executable code of various kinds, perhaps a sequence of executable commands. This code examines the attributes and attribute values of the current object, and determines if the object should be deleted.
The overhead of individually deleting every object for which the reference count has been decremented to zero may be quite high, since every such deletion results in a transaction with the database. It would be advantageous to limit the performance impact of reaping objects, such that foreground operations proceed with maximum speed. In a preferred embodiment, this is accomplished using a technique based on common garbage collection methods.
For instance, instead of deleting an object whose reference count has been decremented to zero, the reaper performs no other action. Periodically, a background task called the garbage collector examines each object in the database. If the object has a reference count of zero, it is added to a list of objects to be deleted. In one embodiment, once the garbage collector has examined the entire database, it would delete all such objects in a single transaction. One familiar in the art will appreciate that this method may also result in a significant performance penalty, as other accesses to the database may be delayed while the objects are being deleted. In addition, if all objects are to be properly deleted, changes to the database may have to be delayed while the garbage collector is active, resulting in even worse performance.
In a preferred embodiment, the garbage collector examines the database in a series of passes. Once a specific number of objects has been collected, they are deleted in a single transaction. Said process continues until all objects have been examined. This technique does not guarantee that all garbage objects are collected during the examination process, since parallel activities may release objects previously examined. These objects will be found, however, the next time the garbage collector runs. The number of objects deleted in each pass is adjustable to achieve acceptable performance for other database activities.
Operations on the Distributed Television Viewing Object Database
Considerations in Maintaining the Distributed Viewing Object Database
The replication of television viewing objects among the instances of the distributed database necessarily requires the transmission of objects over unreliable and unsecure distribution channels.
For example, if the objects are transmitted over a broadcast mechanism, such as within a radio or television transmission, there can be no assurance that the data is transmitted accurately or completely. Weather, such as rainstorms, may cause dropouts in the transmission. Other sources of interference may be other broadcast signals, heavy equipment, household appliances, etc.
One skilled in the art will readily appreciate that there are standard techniques for managing the transmission of data over unreliable channels, including repeated transmissions, error correcting codes, and others, which may be used for transmission, any or all of which may be used in any particular instance.
For efficiency, objects to be replicated are gathered together into distribution packages, herein called “slices”. A slice is a subset of the television viewing object database which is relevant to clients within a specific domain, such as a geographic region, or under the footprint of a satellite transmitter.
Security of these slices is quite important. Slices are used to add objects to the database which are used to provide valuable services to users of the database, as well as to store information that may be considered private or secret. Because of the broadcast-oriented nature of slice transmission, slices may be easily copied by third parties as they are transmitted. A practical solution to these problems is to encrypt the slice during transmission. An ideal reference text on the techniques employed in the invention is “Applied Cryptography: Protocols, Algorithms, and Source Code in C” by Bruce Schneier, John Wiley and Sons, 1995.
In a preferred embodiment of the invention, a secure, encrypted channel is established using techniques similar to those described in U.S. Pat. Ser. No. 4,405,829, often described as asymmetric key encryption, or sometimes public/private key pair encryption. A practitioner skilled in the art will recognize that protocols based on asymmetric key encryption serves as a reliable and efficient foundation for authentication of client devices and secure distribution of information. In general, authentication is provided using an exchange of signed messages between the client and central systems. Secure distribution is provided by encrypting all communications using a short-lived symmetric key sent during an authentication phase.
Successful security requires that sender and receiver agree beforehand on the asymmetric key pair to be used for encryption. Such key distribution is the weakest link in any cryptographic system for protecting electronic data. application Ser. No. 09/357,183, entitled “Self-Test Electronic Assembly and Test System,” filed Jul. 19, 1999, also owned by the Applicant, describes a mechanism whereby the client device generates the asymmetric key pair automatically as the final step in the manufacturing process. The private key thus generated is stored within a secure microprocessor embedded within the client device, such that the key is never presented to external devices. The public key thus generated is transmitted to a local manufacturing system, which records the key along with the client serial number in a secure database. This database is later securely transmitted to the central distribution system, where it is used to perform secure communications with the client.
This unique and novel application of key generation solves the problem of key distribution, as the private key is never presented to external components in the client, where it might be discerned using special tools, such as a logic analyzer. Instead, it may only be used within the security microprocessor itself to decrypt messages originally encrypted with the public key, the results of which are then provided to external components.
The remainder of this discussion assumes that all communications between client and central systems are authenticated and encrypted as described above.
Transmitting Viewing Objects to the Client Systems
Referring again to
Referring again to
Television viewing objects may contain the following types of information: television program descriptions and showing times; cable, satellite or broadcast signal originator information, such as channel numbering and identification; viewer preference information, such as actors, genre, showing times, etc.; software, such as enhanced database software, application software, operating system software, etc.; statistical modeling information such as preference vectors, demographic analysis, etc.; and any other arbitrary information that may be represented as digital data.
Methods Applied to Program Guide Objects
Program guide objects contain all information necessary for software running in the client system to tune, receive, record and view programs of interest to the user of the client system, selecting from among all available programs and channels as described by objects within the database.
This program guide information is updated on a regular basis by a service provider. This is handled by the provider acquiring program guide information in some manner, for instance, from a commercial supplier of such information or other sources of broadcast schedule information. This data is then processed using well-understood software techniques to reduce the information to a collection of inter-related viewing objects.
Referring again to
The service provider may also provide aggregation viewing objects, which describe a set of program guide objects that are interrelated in some fashion. For instance, a “Star-Trek” collection might contain references to all program guide objects associated with this brand name Clearly, any arbitrary set of programs may be aggregated in this fashion. Aggregation objects are similar to directories. For instance, the Star Trek collection might be found at “/showcases/Star Trek” in the hierarchical namespace. Aggregation objects are also program guide objects, and may be manipulated in a similar fashion, including aggregating aggregation objects, and so forth.
The client system may further refine the collection of program objects. In a system where programming may be captured to internal storage, each captured program is represented by a new program guide object, becoming available for viewing, aggregation, etc. Explicit viewer actions may also result in creation of program guide objects. For instance, the viewer may select several programs and cause creation of a new aggregation object.
This description of types of program guide objects is not meant to be inclusive; there may be many different uses and ways of generating program guide objects not herein described which still benefit from the fundamental methods of the invention.
Program guide objects are used by the application software in five ways:
Viewer preferences may be obtained in a number of ways. The viewer may request that certain programs be captured, which results in the highest possible priority for those programs. Alternatively, the viewer may explicitly express preferences using appurtenances provided through the viewer interface, perhaps in response to a promotional spot for a particular program, or even during the viewing of a program. Finally, preferences may be inferred from viewing patterns: programs watched, commercial advertisements viewed or skipped, etc.
In each case, such preferences must correspond to television viewing objects stored in the replicated database. Program objects included a wealth of information about each particular program, for example: title, description, director, producer, actors, rating, etc. These elements are stored as attributes attached to a program object.
Each individual attribute may result in the generation of a preference object. Such objects store the following information:
With respect to
A similar hierarchy is developed based on “indirect” preferences pointing to the same preference objects 501. In general, indirect preferences are generated when preferences for aggregate objects are generated, and are used to further weight the direct preferences implied by the collection of aggregated objects. The preference objects referenced through the indirect preference hierarchy are generated or updated by enumerating the available program objects which are part of the aggregate object 502, and generating or updating preference objects for each attribute thus found.
The weight of a particular preference 503 begins at zero, and then a standard value is added based on the degree of preference expressed (perhaps by multiple button presses) or a standard value is subtracted if disinterest has been expressed. If a preference is expressed based on an aggregate viewing object, all preferences generated by all viewing objects subordinate to the aggregated object are similarly weighted. Therefore, a new weighting of relevant preference elements is generated from the previous weighting. This process is bounded by the degree of preference which is allowed to be expressed, thus all weightings fall into a bounded range.
In a preferred embodiment of the invention, non-linear combinations may be used for weighting a preference item. For instance, using statistical models provided by the central site, the client may infer that a heavily weighted preference for three attributes in conjunction indicates that a fourth attribute should be heavily weighted as well.
The list of preferred programs is generated as follows:
Given this final prioritized list, a recording schedule is generated using the methods described below, resulting in a collection of recorded programs of most interest to the viewer.
Methods Applied to Scheduling Recording Versus Available Storage Space
As has been described previously, recorded programs will in general have an expiration date, after which the recorded program is removed from client storage. The viewer may at any time indicate that a program should be saved longer, which delays expiration by a viewer-selected interval. The invention views the available storage for recording programs as a “cache”; unviewed programs are removed after a time, based on the assumption they will not be watched if not watched soon after recording. Viewed programs become immediate candidates for deletion, on the assumption they are no longer interesting.
With proper scheduling of recording and deletion of old programs, it is possible to make a smaller storage area appear to be much larger, as there is an ongoing flushing of old programs and addition of new programs. Additionally, if resources are available, recordings may be scheduled of programs based on inferred preferences of the viewer; these are called “fuzzy” recordings. This results in a system where the program storage area is always “full” of programming of interest to the viewer; no program is removed until another program is recorded in its place or the viewer explicitly deletes it.
Additionally, the viewer may select a program for recording at any time, and the recording window may conflict with other scheduled recordings, or there may not be sufficient space obtainable when the program must be recorded. The invention includes unique and novel methods of resolving such conflicts.
Conflicts can arise for two reasons: lack of storage space, or lack of input sources. The television viewing system described herein includes a fixed number of input sources for recording video and a storage medium, such as a magnetic disk, of finite capacity for storing the recorded video. Recording all television programs broadcast over any significant period of time is not possible. Therefore, resolving the conflicts that arise because of resource limitations is the key to having the correct programs available for viewing.
Referring again to
A program may be recorded 603 if at all times between when the recording would be initiated and when it expires, sufficient space is available to hold it. In addition, for the duration of the program, there must be an input available from which to record it. The Input Schedule 602 tracks the free and occupied time slots for each input source. In a preferred embodiment of the invention, the input sources may not be used for identical services, e.g., one input may be from a digital television signal and another from an analog television signal with different programming. In this case, only those inputs from which the desired program can be recorded are considered during scheduling.
With respect to
Otherwise, a preferred embodiment of the invention selects only those showings of the program which have no input conflicts 706. Referring again to
Referring again to
Should the viewer reject all opportunities to shorten expiration times, the final step involves selecting those showings with input conflicts 710, and sorting these showings as in the first conflict resolution phase 711. The viewer is then presented with the option to cancel each previously scheduled recording in favor of the desired program 712, 713. Of course, the viewer may ultimately decide that nothing new will be recorded 714.
In a preferred embodiment of the invention, all conflicts are resolved as early as possible, giving the viewer more control over what is recorded. When the viewer makes an explicit selection of a program to record, the algorithm described in
Once an explicit selection has been made, and the viewer informed that the recording will be done, it will not be canceled without explicit approval of the viewer.
Fuzzy recordings are periodically scheduled by a background task on the client device. Given the prioritized list of preferred programs as described earlier, the background scheduler attempts to schedule each preferred program in turn until the list is exhausted or no further opportunity to record is available. A preferred program is scheduled if and only if there are no conflicts with other scheduled programs. A preferred program which has been scheduled may be deleted under two conditions: first, if it conflicts with an explicit selection, and second, if a change in viewer preferences identifies a higher priority program that could be recorded at that time.
A further complication arises when handling aggregate viewing objects for which recording is requested. If conflict resolution was handled according to the method above for such objects, a potentially large number of conflicts might be generated, leading to a confusing and frustrating experience for the viewer in resolving the conflicts. Thus, when aggregate objects are chosen for recording, conflicts are automatically resolved in favor of the existing schedule.
In a preferred embodiment of the invention, conflicts resulting from the recording of aggregate objects will be resolved using the preference weighting of the programs involved; if multiple conflicts are caused by a particular program in the aggregate object, it will only be recorded if its preference exceeds that of all conflicting programs.
Methods Applied to Software Objects
The client system requires a complex software environment for proper operation. An operating system manages the interaction between hardware devices in the client and software applications which manipulate those devices. The television viewing object database is managed by a distinct software application. The time-warping software application is yet another application.
It is desirable to add new features or correct defects in these and other software subsystems which run on the client hardware device. Using the methods described herein, it is possible to replicate viewing objects containing updated software modules into the client system database. Once present in the client system database, the following unique and novel methods are used to install the updated software and cause the client system to begin executing the new software.
The software environment of the device is instantiated as a sequence of steps that occur when power is first applied to the device, each step building up state information which supports proper application of the following step. The last step launches the applications which manage the device and interact with the viewer. These steps are:
The operating system performs necessary hardware and software initialization. It then loads the viewing object database software from the disk drive, and begins execution of the application. Other application software, such as the time-warping software and viewer interaction software, are also loaded and started. This software is usually located in a separate area on the disk from the object database or captured television programs.
Ideally, new software would be installed by simply copying it to the appropriate place on the disk drive and rebooting the device. This operation is fraught with danger, especially in a home environment. Power may fail while copying the software, resulting in an inconsistent software image and potential operating problems. The new software may have defects which prevent proper operation. A failure may occur on the disk drive, corrupting the software image.
Although the methods of this invention have referred to a disk drive, one skilled in the art will readily appreciate that the methods described here apply generally to any persistent storage system. A disk drive, and other persistent storage systems, are typically formatted into a sequence of fixed-size blocks, called sectors. “Partitions” are sequential, non-overlapping subsets of this sequence which break up the storage into logically independent areas.
With respect to
The disk is partitioned into at least seven (7) partitions. There are two (2) small partitions dedicated to holding a copy of the second stage boot loader 806, two (2) partitions holding a copy of the operating system kernel 807, two (2) partitions containing a copy of the application software 808, and a partition to be used as scratch memory 809. For duplicated partitions, an indication is recorded in the boot sector 805 in which one of the partitions is marked “primary”, and the second is marked “backup”.
One skilled in the art will readily appreciate that, although two partitions are described herein for redundancy, triple, quadruple or greater degrees of redundancy can be achieved by creating more duplicated partitions.
With respect to
Similarly, the second stage boot loader reads the partition table and locates the “primary” operating system kernel 907. If the kernel can not be loaded 908, the “backup” kernel is loaded instead 909. In any case, control is passed to the operating system along with an indication of the source partition, along with the passed source partition from above 910.
Finally, the operating system locates the “primary” partition containing application software and attempts to load the initial application 911. If this fails 912, then the operating system locates the “backup” partition and loads the initial application from it 913. An indication of the source partition is passed to the initial application, along with the source partition information from the previous steps. At this point, application software takes over the client system and normal viewing management behavior begins 914.
This sequence of operations provides a reasonable level of protection from disk access errors. It also allows for a method which enables new software at any of these levels to be installed and reliably brought into operation.
An “installer” viewing object in the object database is used to record the status of software installation attempts. It records the state of the partitions for each of the three levels above, including an indication that an attempt to install new software is underway 915. This operation is reliable due to the transactional nature of the database.
Referring to
Referring again to
In a preferred embodiment of the invention, finalization of the installation for the top application level of software may be delayed until all parts of the application environment have been successfully loaded and started. This provides an additional level of assurance that all parts of the application environment are working properly before permanently switching to the new software.
Methods Applied to Operations Status Objects
Operations status objects are a class of viewing object in which information about the usage, performance and behavior of the client system is recorded. These objects are collected by the central site whenever communication with the central site is established.
The following operations status indicators are recorded for later collection along with a time stamp:
Since all actions are recorded along with a time stamp, it is possible to reconstruct the behavior of the client system using a linear time-based ordering. This allows manual or automatic methods to operate on the ordered list of events to correlate actions and behaviors. For instance, if an expected automatic action does not occur soon after rebooting with new software, it may be inferred that the new software was defective.
Processing of Television Viewing Objects by Central Site Systems
Sources of Television Viewing Objects
A client system has a single source of television viewing objects: the central site. The central site object database has many sources of television viewing objects:
It should be clear that there may be any number of sources of viewing objects, and this enumeration simply shows the most basic possible sources.
Operations on Television Viewing Objects
There are a large number of possible operations on the central television viewing object database. The following examples are meant to show the type of processing that may be performed, however the potential operations are not limited to these examples:
Clearly, aggregation program objects may also permit the expression of preferences or recording of other information. These results may be uploaded to the central site to form a basis for the next round of aggregate generation or statistical analysis, and so on.
This feedback loop closes the circuit between service provider and the universe of viewers using the client device. This unique and novel approach provides a new form of television viewing by providing unique and compelling ways for the service provider to present and promote the viewing of television programs of interest to individuals while maintaining reliable and consistent operation of the service.
Adjusting Scheduled Recordings
Many external forces affect the actual airing of broadcast programs. For example, local stations have a tendency to broadcast programs early or late and sports broadcasts often run into overtime. The fact that programs are scheduled to be broadcast at specific times never takes in to account these external forces. Viewers often miss the first few minutes of their favorite programs or the end of a cliffhanger that won't be rerun until the beginning of the next season.
Referring to
With respect to
Referring to
The viewer adjusts the start time of the recording by entering the relative time increment (minutes, hours, or seconds) 1403, or underrun, that is added (later recording, e.g., “x minutes longer”) or subtracted (earlier recording, e.g., “y minutes early”—in this example, “1 minute early” is displayed) from the posted start time of the program. The end time of the recording is also adjustable by the viewer. The viewer indicates the relative time increment (minutes, hours, or seconds) 1404, or overrun, that is added (later completion, e.g., “x minutes longer”—in this example, 30 minutes longer is displayed) or subtracted (earlier completion, e.g., “y minutes early”) from the posted end time of the program.
The scheduler allows the viewer to obtain a season pass for a series of programs such as soap operas and comedy series. A season pass indicates that the scheduler will schedule a recording of the program each time it is aired on a particular station.
With respect to
The viewer adjusts the start times of all of the season pass recordings by entering the relative time increment (minutes, hours, or seconds) 1505 that is added (later recording, e.g., “x minutes longer”) or subtracted (earlier recording, e.g., “y minutes early”—in this example, “1 minute early” is displayed) from the posted start times of the programs. The end times of all of the season pass recordings are also adjustable by the viewer. The viewer indicates the relative time increment (minutes, hours, or seconds) 1506 that is added (later completion, e.g., “x minutes longer”—in this example, 30 minutes longer is displayed)) or subtracted (earlier completion, e.g., “y minutes early”) from the posted end times of the programs.
The invention allows the viewer to adjust the amount of time added or subtracted to the end time (padding) while the program is being recorded. This gives the viewer the flexibility to adapt to, for example, football games that go into overtime.
With respect to
The scheduler (described above) periodically, e.g., when updated program guide information (containing upcoming program information and broadcast times) is received, searches the program guide information for shows that meet the criteria on the viewer's wish list for as long as the viewer keeps the wish list. The viewer can look at a list of upcoming shows 1802 resulting from the search. The viewer can also set a wish list to auto-record the wish list 1803 and the scheduler will schedule every program on the wish list for recording that it finds. For example, if the viewer selects a specific actor wish list, the scheduler automatically records movies that the particular actor is listed in. The recordings are also subject to any conflicts.
Wish list programs can be padded by the viewer in the same manner as season pass programs. Just like season passes, there may be reasons why padding is put into place by a viewer. For example, if a wish list is for shows that are sports shows with the San Francisco Giants playing, it is widely known that baseball games run over the posted broadcast ending time. The viewer can set an overrun value for that wish list.
Referring to
Referring to
The priority of the season pass or wish list determines which program is recorded in case of a conflict in the scheduling of a recording. As mentioned above, a show that is to be scheduled for recording may overlap with another show that is already scheduled for recording, causing a conflict. There are two levels of conflicts that can occur. The first is a single show conflicting with another show or season pass (as shown in
The reason why a season pass is used for this example is because a season pass is generally fairly consistent. For example, a season pass may be for only first run episodes of a show. The first run episodes are only broadcast every Tuesday at 8:00 pm PDT. When a season pass has conflicts with any other shows already scheduled, the viewer has the option to record all of the season pass or the non-conflicted episodes 2003. Additionally, the user is allowed to resolve conflicts on an episode by episode basis. Wish lists are handled in the same manner.
The scheduler manages the recording of the season passes, wish lists, and manually selected recordings. This means that there are several different sources from which a conflict may arise. Shows not only conflict with scheduled broadcast times but things get more complicated with the addition of viewer adjusted padding.
The viewer does not want to get involved with every decision that must be made with regard to a conflict and since the scheduler receives periodic program guide updates, conflicts will regularly occur. With the invention's smart padding activated, the scheduler has the ability to automatically adjust to the viewer's padding settings, i.e., adjusted start and end recording time adjustments.
The scheduler provides the following options for padding:
The combinations of options can be set by the system or by the user. The most common are Explicit/High Priority/Required, Explicit/High Priority/Optional and Explicit/Low Priority/Optional. The scheduler uses the options to make its conflict decisions. The options can be set for all recordings down to the single program granularity. Designating options at a program level requires too much viewer interaction for setting a recording, so it is much easier for the viewer to set the options at a higher system-wide level.
Explicit/High Priority/Required examples:
Explicit/High Priority/Optional examples:
Explicit/Low Priority/Optional examples:
The scheduler uses the season pass manager's priority settings to determine the priority of a season pass or wish list recording. A viewer's single program recording is explicitly programmed by the viewer and is considered high priority.
The scheduler can also adjust the padding in order to resolve a conflict. The adjustment is determined by the scheduler using a predetermined threshold.
For example, using Explicit/High Priority/Optional, a set of scheduler threshold values can be set to:
StartLate(body)=1 minute; StartLate(padding)=any
StopEarly(body)=0 minutes; StopEarly(padding)=any
This means that when two programs conflict, the scheduler will propose, to the viewer, resolving the conflict by taking the lower priority program and dropping: 1) any amount of its start or end padding; 2) up to one minute at the start of the program body; or 3) no amount at the end of the program body. For newly-requested programs, the viewer is asked to confirm the conflict resolution:
For existing season pass, wish list, and single program conflicts detected when the scheduler periodically runs, the conflict will be automatically resolved according to the thresholds set or, if no thresholds are set, the straight-forward approach for the options selected.
The scheduler can optionally deal with the special case of back-to-back episodes of a season pass by resolving the conflict by recording the first episode with padding followed by recording whatever remains of the body/padding of the second episode.
If the viewer is watching live TV using a specific tuner and the scheduler finds that it must change the tuner channel to record a scheduled program, the system displays a screen to the user asking the user if it is okay to change the channel to record the program. When the viewer has added padding to season passes, wish lists, and single programs, the scheduler must change the channel of the tuner much earlier than usual. The viewer will consequently see the display screen earlier. The viewer has three options: change the channel at the designated time; change the channel at the program's originally scheduled time (eliminating the padding subtracted from the program's start time); or cancel the recording. This gives the viewer the option to complete the live program that he is watching.
With respect to
The Scheduler module 1702 maintains the Recording Schedule database 1705. The Scheduler module 1702 accepts program recording schedules and recording option parameters from the viewer through the User Interface module 1701. Acceptable program recording schedules are stored into the Recording Schedule database 1705 by the Scheduler module 1702. The Scheduler module 1702 notifies the viewer of any recording schedule conflicts through the User Interface module 1701. The Scheduler module 1702 resolves any running conflicts as described above.
Program recordings are performed by the Record Programs module 1707. The Record Programs module 1707 looks at the Recording Schedule database 1705 to find the time and input channel that is next to be recorded. As each program recording time comes up, the Record Programs module 707 records the program, by storing it in the Persistent Store 1704. Program information such as the title, program description, and storage duration are stored with the program recording in the Persistent Store 1704.
In the case of the invention being implemented in a digital video recorder (DVR), the program is stored in digital form in the Persistent Store 1704. The viewer can randomly play any program stored in the Persistent Store 1704.
The Purge Programs module 1708 constantly checks the programs stored in the Persistent Store 1704 for expiration dates. Programs are removed from the Persistent Store 1704 by the Purge Programs module 1708 whenever the program's storage duration expires or the Record Programs module 1707 finds that it needs more room on the Persistent Store 1704 to store new program recordings.
The viewer accesses the programs stored in the Persistent Store 1704 via the Playback Programs module 1709. The Playback Programs module 1709 plays the requested stored program from the Persistent Store 1704 to the viewer via the User Interface module 1701.
Although the invention is described herein with reference to the preferred embodiment, one skilled in the art will readily appreciate that other applications may be substituted for those set forth herein without departing from the spirit and scope of the present invention. Accordingly, the invention should only be limited by the claims included below.
Beach, Brian, Waterman, Alan, Pope, David E., Hibdon, Martin
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