Program guide optimization system

Abstract

A method and system of optimizing strings comprised in program guide data for transmission is described. The method includes sharing, in the program guide data, a plurality of strings, each string among the plurality of strings including a shared sorting key, implementing an order access of a sorted sharing index, wherein the program guide data and the shared sorting key are comprised in the same data storage structure. Related methods and apparatus are also described.

Description

RELATED APPLICATION INFORMATION

The present application claims the benefit of priority based on UK Patent Application GB 0511774.2 of NDS Limited, filed 9 Jun. 2005, and titled, “EXTENDED SERVICE INFORMATION 2 (XSI-2)”. The disclosure of UK Patent Application GB 0511774.2 is incorporated herein by reference.

FIELD OF THE INVENTION

The present invention, in preferred embodiments thereof, relates to electronic program guides (EPG), and more particularly, systems for optimizing EPG data and the transmission thereof.

BACKGROUND OF THE INVENTION

PATRICIA is an algorithm which provides a flexible means of storing, indexing, and retrieving information in a large file, which is economical of index space and of reindexing time. It does not require rearrangement of text or index as new material is added. It requires a minimum restriction of format of text and of keys; it is extremely flexible in the variety of keys it will respond to. It retrieves information in response to keys furnished by the user with a quantity of computation which has abound which depends linearly on the length of keys and the number of their proper occurrences and is otherwise independent of the size of the library. It has been implemented in several variations as FORTRAN programs for the CDC-3600, utilizing disk file storage of text. It has been applied to several large information-retrieval problems and will be applied to others. PATRICIA is described in PATRICIA—Practical Algorithm To Retrieve Information Coded in Alphanumeric, Donald R. Morrison, JACM Vol. 15, Issue 4 (October 1968), pages 514-534.

Patricia Trees are also discussed at length in The Art of Computer Programming, vol. 3, Donald E. Knuth, Addison-Wesley Publishing Company, Inc., 1973, on pages 490-504, and 681-687.

U.S. Pat. No. 6,763,522 to Kondo et al. describes a system and method for providing an electronic program guide for broadcasted digital television wherein the electronic program guide displays only currently broadcasting minor channels, and timely event and contextual information. The system of the present invention includes program code in a memory for causing a tuner/de-multiplexor subsystem to tune to a preselected major channel broadcast frequency and to provide thereby at least one transport stream comprising a plurality of associated digital data elementary streams. The elementary streams include minor channel audio and video, as well as program and system information tables (PSIT), all of which are associated by packet identifiers to provide a table hierarchy. The system of the present invention compares presently broadcasting minor channel and PSIT information with corresponding information in memory. If the presently broadcasting information is more contemporaneous than the stored information, the stored information is updated, or replaced, with the presently broadcasting information to enable display of only actively broadcasting minor channels and up-to-the-minute event and contextual information.

U.S. patent application Ser. No. 10/084,106 of Unger, published as US 2002/0194613, describes a method and apparatus for reconstituting packetized data streams representing a television program when the program uses multiple packet identifiers (PID) as in selective encryption schemes. Transmission of multiple sets of system information (SI) is avoided by incorporating a lookup table within a private data packet. A dual buffer arrangement in the set-top box provides ease of reconstitution of a data stream by generation of an interrupt upon receipt of a packet with a shadow PID. The buffers are toggled as a result of the interrupt and a corresponding packet can be found either at the beginning of the newly active buffer or the end of the inactive buffer. The stream of packets representing a program can then be reconstituted by creation of a new packet having the primary PID and shadow packet's payload.

U.S. patent application Ser. No. 11/196,086 of Domegan et al., published as US 2005/0283799, describes a system for localizing an EPG program schedule, including an EPG service provider station including a database of channels and corresponding EPG program schedule information, a database manager identifying a plurality of channel line-ups potentially receivable at a viewing location, a transmitter, and a receiver, a multimedia viewer situated at the viewing location including an automatic channel line-up identifier identifying a first line-up of television channels receivable at the viewing location, a channel line-up processor at the viewing location calculating a channel line-up from among the plurality of channel line-ups that substantially matches the first line-up, a receiver receiving from the EPG service provider station the plurality of channel line-ups, and a transmitter transmitting to the EPG service provider station the identifier of the channel line-up calculated by the channel line-up processor, and a network connection linking the multimedia viewer to the EPG service provider, wherein the EPG service provider station transmitter transmits to the multimedia viewer the plurality of channel line-ups and also transmits to the multimedia viewer EPG program schedule information localized to the viewing location and based on the identifier of the channel line-up calculated by the channel line-up processor, and wherein the EPG service provider station receiver receives from the multimedia viewer the identifier of the calculated channel line-up, and wherein the multimedia viewer receiver also receives from the EPG service provider station the EPG program schedule information.

PCT application PCT/US02/24940 of Diego Inc., published in the English language as WO 03/015394, describes a method whereby localized content and corresponding applications can be provided to thin-client interactive television terminals. Localization may be performed on general data feeds by applying, at a portal that receives the data feeds, localization parameters specified in a plurality of channel configuration records. The local content is then provided to their corresponding head-ends. From the head-ends, the local content and its application are carousel broadcasted to thin-client terminals via different data pipes. A viewer can tune to a synthetic channel having the local content and application via familiar television metaphors, such as from a remote control or from an electronic program guide. The viewer's interaction with the local content can be limited to a walled garden.

PCT application PCT/US00/05188 of Index Systems, Inc., published in the English language as WO 00/52928, describes a system and method for providing merged electronic program guides with redundant listings removed. The television system receives EPG data of television programs broadcast by a plurality of program signal sources. Such signal sources may include OTA broadcast, cable, satellite, and the like. Either the television system or a merging system separate from the television system receives EPG data including program scheduling information of television programs telecast from the various signal sources. The system further receives channel mapping information for each of the signal sources. The channel mapping information relates television channels to television stations carried by the signal sources. The system creates a merged channel map based on the channel mapping information with any duplicate television station listings removed. Each television channel is associated with a unique channel identifier. Duplicate television station listings are therefore identified by identifying duplicate channel identifiers. Duplicate television station listings may be eliminated based on a priority associated with the various signal sources, or based on the signal quality of the various sources.

PCT application PCT/IL02/00190 of NDS Ltd., published in the English language as WO 02/075596 on 26 Sep. 2002, and corresponding U.S. patent application Ser. No. 10/469,487 of Sterkin et al., published on 29 Jul. 2004 as US 2004/0148637, describes a method for accessing at least one literal data item in a hierarchical structure, the method including receiving a request to access at least one literal data item, and accessing the at least one literal data item, at least in part, by choosing and using an access method chosen from the following group: local storage access, back channel access, and data carousel access. The disclosure of WO 02/075596 and corresponding US 2004/0148637 are hereby incorporated herein by reference.

Published European patent application EP 0912054 of General Instruments Corp. describes an Interactive Program Guide (IPG) data for television is delivered to integrated receiver-decoders (IRDs) in a decoder population via, for example, a satellite network. The IPG data provides scheduling information for global and local programming services which are carried via the satellite network as well as another network such as a CATV network or a terrestrial broadcast network. Each IRD is assigned to an IPG region using unit addressing. At the IRD, IPG data is filtered so that only the global data and the region-specific data for the IRD's IPG region is retained and processed by the IRD. Channel map data is also delivered to the IRDs so that bundles of IRD data can be filtered out using firmware filtering to discard program sources that are not present in the channel map. The IRD data which is retained after filtering is used to provide scheduling information via an on-screen display. A preferred source may be designated when there are duplicative channels on the different networks.

Standards that are relevant to understanding the state of the art include the following published standards:

ETS 300 468, Digital Video Broadcasting (DVB) Specification for Service Information (SI) in DVB Systems;

ETR 162, Digital Broadcasting Systems for Television, Sound and Data Services; Allocation of Service Information (SI) Codes for Digital Video Broadcasting (DVB) Systems;

ETR 211, Digital Video Broadcasting (DVB); Guidelines on Implementation and Usage of Service Information (SI).

ISO 639 is an international standard listing short codes for language names.

The disclosures of all references mentioned above and throughout the present specification, as well as the disclosures of all references mentioned in those references, are hereby incorporated herein by reference.

SUMMARY OF THE INVENTION

ETS 300 468, Digital Video Broadcasting (DVB) Specification for Service Information (SI) in DVB Systems specifies a way for a broadcast headend to provide data that will appear on a program guide of a personal video recorder (PVR) or set top box (STB). The terms PVR and STB, unless specifically noted, are used herein interchangeably. The terms PVR and STB are collectively and generically referred to herein as a “receiver” or “receivers”.

The data provided typically includes data about:

• • events, such as television shows;
  • DVB SI services, popularly called TV channels;
  • Near video on demand (NVOD) services; Bouquets, a set of services presented on the program guide; and
  • Mosaics.

In order to improve efficiency and flexibility offered to a broadcaster in the way each STB builds a list of channels and services in its channel line up (for example, with the definition of new selection criteria attribute associated to each channel), and to support other broadcaster requirements which DVB SI did not support, Extended Service Information (XSI) was developed. XSI was originally developed as a proprietary extension of DVB SI by NDS Limited. XSI utilizes DVB SI and MPEG-2 private data descriptors, private data tables, and data carousels as a mechanism to deliver XSI data to STBs.

Since XSI was deployed, digital television platforms have grown beyond what XSI was originally designed for, new technology such as PVRs have been introduced, and the cost of program guide data storage in the STB has decreased, resulting in the need for a new service information system.

The present invention seeks to provide an improved method and system for sorting data strings for more efficient delivery to electronic program guides.

There is thus provided in accordance with a preferred embodiment of the present invention a method of optimizing strings included in program guide data for transmission, the method including sharing, in the program guide data, a plurality of strings, each string among the plurality of strings including a shared sorting key, implementing an order access of a sorted sharing index, wherein the program guide data and the shared sorting key are included in the same data storage structure.

Further in accordance with a preferred embodiment of the present invention the sorted sharing index includes a Patricia tree sort index.

There is also provided in accordance with another preferred embodiment of the present invention a method of optimizing program guide data for transmission, the method including providing, at a broadcast headend, a list of services and the program guide data, the program guide data including a list of events to be broadcast on services corresponding to service identifiers included within the list of services, associating the services with channels, further associating the channels into channel groups, selecting a field included in program guide data associated with each event, sorting the list of events to be broadcast on the services according to the selected field, grouping the sorted list of events, such that all identical instances the field are grouped together, collapsing the grouped sorted list of events such that one of the following includes a main event and every other instance of the event includes a collapsed event one instance of the event next to be broadcast on at least one service associated with the channel group, and one instance of the event presently being broadcast on at least one service associated with the channel group, thereby producing optimized program guide data.

Further in accordance with a preferred embodiment of the present invention and also including transmitting the optimized program guide data.

Still further in accordance with a preferred embodiment of the present invention the transmitting includes broadcasting the optimized program guide data.

Additionally in accordance with a preferred embodiment of the present invention the selected field includes a title string associated with the event.

Moreover in accordance with a preferred embodiment of the present invention the sorting the list of events includes a Patricia tree sort according to the selected field.

There is also provided in accordance with still another preferred embodiment of the present invention a method of displaying data in a program guide, the method including receiving a list of events to be displayed in the program guide, the list including collapsed, sorted, and grouped event data, selecting, for each collapsed, sorted, and grouped event, a main event and at least one associated collapsed event, displaying the main event in a sorted list of events, and displaying the collapsed events upon selection of the main event from the sorted list of events.

Further in accordance with a preferred embodiment of the present invention the sorted list includes an A-Z sorted list.

There is also provided in accordance with still another preferred embodiment of the present invention a method of optimizing program guide data associated with a plurality of broadcast events for display on an electronic program guide (EPG), the method including associating a data field with a broadcast event selected from among the plurality of broadcast events, the data field including at least the following fields a language data field, a title data field, a channelgroup data field, a broadcast time data field, a channel data field, and a service data field, ordering the program guide data associated with the broadcast event according to the data field associated with the broadcast event in the following order Language, Title, ChannelGroup, Channel, and Service, thereby producing ordered program guide data associated with the broadcast event, assigning the broadcast event a LastInChannelFlag (LICF) flag and a LastInChannelGroupFlag (LICGF) flag, and determining at least one main event from among the plurality of broadcast events, wherein the at least one main event includes an event within the ordered list of program guide data associated with the broadcast event including an identical Title field within a ChannelGroup within a first Channel included in the ChannelGroup.

Further in accordance with a preferred embodiment of the present invention a collapsed event includes all events within the ordered program guide data associated with the broadcast event which includes the channelgroup, and wherein each channelgroup is terminated by the LICF set to 1, until the LICGF is set to 1.

Still further in accordance with a preferred embodiment of the present invention the Language data field includes an ISO 639 language identifier.

Additionally in accordance with a preferred embodiment of the present invention the Title data field includes a broadcast event title.

Moreover in accordance with a preferred embodiment of the present invention the ChannelGroup data field includes a channel group identifier, the channel group identifier identifying the channelgroup to which a service broadcasting the event is assigned.

Further in accordance with a preferred embodiment of the present invention the Time data field includes a broadcast time for the broadcast event, the broadcast time including the time at which the broadcast event is scheduled to be broadcast, on the service broadcasting the broadcast event.

Still further in accordance with a preferred embodiment of the present invention the Channel data field includes a channel identifier within the channelgroup including the service broadcasting the event.

Additionally in accordance with a preferred embodiment of the present invention the Service data field includes a DVB service identifier.

Moreover in accordance with a preferred embodiment of the present invention the LastInChannelFlag flag is set to 1 if the ChannelGroup data field, Time data field, or Channel data field differs from a corresponding ChannelGroup data field, Time data field, or Channel data field in a preceding event within the ordered program guide data list, thereby denoting an end of a channel selection group, and is set to 0 if one of the ChannelGroup data field, Time data field, and Channel data field do not differ from a corresponding ChannelGroup data field, Time data field, or Channel data field in the next event within the ordered program guide data list.

Further in accordance with a preferred embodiment of the present invention the LICGF is set to 1 for any event including a last event for a given Title data field within the channelgroup, and set to 0 for any event not including a last event for a given Title data field within the channelgroup.

There is also provided in accordance with still another preferred embodiment of the present invention a system of optimizing strings included in program guide data for transmission, the system including a string sharer operative to share, in the program guide data, a plurality of strings, the plurality of strings including a shared sorting key, a sorter operative to implement an order access of a sorted sharing index, wherein the program guide data and the shared sorting key are included in the same data storage structure.

There is also provided in accordance with still another preferred embodiment of the present invention a system for optimizing program guide data for transmission, the system including at a broadcast headend, a list of services and program guide data, the program guide data including a list of events to be broadcast on the services, a channel association unit which associates services with channels, a channel group association unit which further associates the channels into channel groups, a field selector which selects a field included in data associated with each event, a list sorter which sorts the list of events according to the selected field, a grouping unit which groups the sorted list of events such that all instances of an event which include an identical instance of the field are grouped together, a collapsing unit which collapses the grouped sorted list of events such that one of the following instances of the event includes a main event and every other instance of the event within the list includes a collapsed event one instance of the event next to be broadcast on at least one service associated with the channelgroup, and one instance of the event presently being broadcast on at least one service associated with the channelgroup, thereby producing optimized program guide data.

There is also provided in accordance with still another preferred embodiment of the present invention a system of displaying data in a program guide, the system including an event list receiver which receives a list of events to be displayed in the program guide, the list including collapsed, sorted, and grouped event data, a selector which selects, for each collapsed, sorted, and grouped event, a main event and at least one associated collapsed event, a displaying unit which displays the main event in a sorted list of events, and displays the at least one collapsed event upon selection of the main event from the sorted list of events.

There is also provided in accordance with still another preferred embodiment of the present invention a system for optimizing program guide data associated with events for display on an electronic program guide (EPG), the system including a data field associator which associates data fields with a broadcast event from among a plurality of broadcast events, the data field including at least t e following fields a language data field, a title data field, a channelgroup data field, a broadcast time data field, a channel data field, and a service data field, a program guide data orderer which orders program guide data associated with the broadcast event according to the data associated with the broadcast event in the following order Language, Title, ChannelGroup, Channel, and Service, thereby producing ordered program guide data associated with the broadcast event, a broadcast event assignor which assigns the broadcast event a LastInChannelFlag (LICF) flag and a LastInChannelGroupFlag (LICGF) flag, and a determiner which determines at least a main event from among the plurality of broadcast events, wherein the main event includes an event within the ordered program guide data associated with the broadcast event, the program guide data associated with the broadcast event including an identical Title field within a ChannelGroup within a first Channel included in the ChannelGroup.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will be understood and appreciated more fully from the following detailed description, taken in conjunction with the drawings in which:

FIG. 1 is a simplified pictorial illustration of an Electronic Program Guide (EPG) displaying information about television programs during a period of time, the information optimized according to a preferred method of the present invention, and constructed and operative in accordance with a preferred embodiment of the present invention;

FIG. 2 is a simplified pictorial illustration of a PATRICIA tree sort of selected television programs depicted in the EPG of FIG. 1, as well as additional television programs;

FIG. 3 is a bit-wise listing of the title strings of some of the television programs in the PATRICIA tree of FIG. 2;

FIG. 4 is a simplified UML diagram showing the relationship between ChannelGroup, Channel, and Service, as implemented in presenting data in the EPG of FIG. 1;

FIG. 5 is a simplified block diagram showing the relationship between ChannelGroup, Channel, and Service, useful in illustrating the UML diagram of FIG. 4; and

FIGS. 6-9 are simplified flowchart illustrations of preferred methods of operation of the system of FIG. 1, in accordance with preferred embodiments thereof.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT

Reference is now made to FIG. 1, which is a simplified pictorial illustration of an Electronic Program Guide (EPG) displaying information about television programs during a period of time, the information optimized according to a preferred method of the present invention, and constructed and operative in accordance with a preferred embodiment of the present invention. The EPG depicted in FIG. 1, as is well known in the art, comprises a grid with channels arranged descending along the vertical axis, and time progressing along the horizontal axis. Programs to be broadcast at a given time on a given channel are shown at the grid location comprising the intersection of the given time with the given channel. The EPG depicted in FIG. 1 comprises program guide information for four channels, Channel 1, Channel 1+1, Channel 2 West, and Channel 2 South.

For purposes of the discussion of FIG. 1, Channel 1+1 comprises a so called “time shifted” channel, wherein programming broadcasted on Channel 1 is broadcast with a time-delay on an auxiliary channel. Channel 2 West and Channel 2 South comprise “regional channels”. Programming on regional channels comprises shared programs and region specific programs. Shared programs are broadcast on both Channel 2 West and Channel 2 South, such as “100 Piece Drill Bit Set” (at 19:30) and “1001 Cultures” (at 20:00). Region specific programs are programs broadcast with target audiences of particular regions, such as “West Scene”, broadcast only on Channel 2 West, and “Going South”, broadcast only on Channel 2 South. Both of the region specific programs are scheduled to be broadcast at the same time, 21:30.

Typically, EPGs enable viewing program listings in a number of ways besides the grid depicted in FIG. 1. For example and without limiting the generality of the foregoing, some EPGs allow sorting program listings by genre (such as Movies, Sports, etc.) and sub-genre (such as Drama, Comedy, etc. for Movies, and Football, Golf, etc. for Sports). Some EPGs allow viewing program listings sorted in an A-Z list of program listings, typically for up to the next seven days programming.

A set top box (STB) or personal video recorder (PVR), hereinafter, referred to as a “receiver”, which preferably receives and caches data for display in the EPG of FIG. 1 would have to cache the data for “10 Tasks for Hercules” twice; once for Channel 1 at 19:30 and once for Channel 1+1 at 20:30. Likewise, data for “1001 Cultures” would have to be cached twice by the receiver; once for Channel 2 West at 20:00, and once for Channel 2 South at 20:00. Additionally, fast response times by the EPG are desired in order to ensure that a viewer's user experience is enhanced.

In certain broadcast environments, such as, for example, a broadcast environment implementing XSI-2 (an extended SI system commercially available from NDS Ltd.) a full seven days of data is already cached in the receiver. Furthermore, in the XSI-2 broadcast environment, title string sharing is implemented, such that two programs appearing as distinct programs in the EPG preferably “share” their title string, as described below, in data available to the receiver. For example and without limiting the generality of the foregoing, in the EPG depicted in FIG. 1, the title string “10 Tasks for Hercules” is a shared title string, shared by the program item appearing on the EPG on Channel 1 at 19:30 and the program item appearing on the EPG on Channel 1+1 at 20:30. Likewise, the title string of the program item, “100 Piece Drill Bit Set”, appearing on the EPG at 19:30 on both Channel 2 West and Channel 2 South, is a shared title string.

Similarly, the title string of the program item “Emergency”, appearing on Channel 1+1 at 19:30 and 20:00 is also a shared title string.

In a preferred embodiment of the present invention, title strings and other strings are separated into separate data repositories. The title string sharing key is defined as an uncompressed sort string. For example and without limiting the generality of the foregoing, for the program item “EMERGENCY”, the title string sharing key is “EMERGENCY”. If need be, the entire title is used to distinguish between two title strings, for instance, if the following two title strings exist in EPG data: “Emergency—Episode 8” and “Emergency—Episode 9”, the entire title is needed to distinguish between the two title strings.

In a preferred embodiment of the present invention, a pointer is provided in the EPG data from a shared title siring, the pointer pointing to a list of programs sharing the title string. For example, if the two episodes of Emergency on Channel 1+1 at 19:30 and at 20:00 are two different episodes, only one title string, “Emergency” preferably appears in the EPG data. The one title string preferably comprises a pointer, such that when a viewer selects one of the two episodes of “Emergency”, the EPG preferably retrieves the list of programs sharing the title string “Emergency”, and, based on the time of the episode selected by the viewer, the EPG is able to select, from the list which is pointed to, information about the episode selected by the viewer.

Reference is now made to FIG. 2, which is a simplified pictorial illustration of a PATRICIA tree sort of selected television programs depicted in the EPG of FIG. 1, as well as additional television programs. As is explained below, in detail, with reference to FIG. 3, the PATRICIA tree comprises a binary tree. For ease of depiction, strings in the PATRICIA tree of FIG. 2 are represented in alpha-numeric characters and not in binary. For a PATRICIA tree comprising some number Q strings, the PATRICIA tree also comprises Q nodes. As is well known in the art, the time required for inserting, deleting, and searching the PATRICIA tree requires is proportional to log(Q). (See D. Knuth, The Art of Computer Programming, vol. 3, pp. 490-504, and 681-687.)

Any two children of a given node start with the same sequence of N bits. For instance, in the PATRICIA tree of FIG. 2, each string begins with the character “1”, thus, each string begins with the bit string “00110001”. The actual location of each node in the PATRICIA tree of FIG. 2 depends on the method of insertion of the strings into the PATRICIA tree, as is well known in the art. (See The Art of Computer Programming, vol. 3, pp. 490-504, and 681-687, particularly Exercise 15 (p. 501), and the solution thereto (p. 63).)

Dotted lines in the PATRICIA tree are terminal pointers which point back to an actual node which can be considered a leaf (terminal node). Pointing to leaves alleviates the need to store a given string twice, once in a node and once in a leaf.

Pointers, both terminal and non-terminal, are depicted in FIG. 2 with a bit-value indicator (either depicted as a ‘0’ or a ‘1’). The bit-value indicator is understood as a “navigational” aide in comparing nodes. If a node differs from the next node by a ‘0’, follow the bit-value indicator for ‘0’. Similarly, if the node differs from the next node by a ‘1’, follow the bit-value indicator for ‘1’.

Reference is now additionally made to FIG. 3, which is a bit-wise listing of the title strings of some of the television programs in the PATRICIA tree of FIG. 2. As was explained above with reference to FIG. 2, the PATRICIA tree comprises a binary tree. Any two children of a given node start with the same sequence of N bits, and thus, the two children of the given node differ at bit N. Thus, each node of the PATRICIA tree represents a single bit comparison of the string comprised in the node. By way of example, the top of FIG. 3 depicts a comparison between the first three characters of the string “112's TOP TEN BAD BOY ARTISTS” (“112”) expressed in binary and the first three characters of the string “100 DEEDS FOR EDDIE McDOWD” (“100”) expressed in binary. Bit 15 is the first bit to differ between the two strings. Thus, in FIG. 2, the number 15 appears beside the solid arrow descending from “112's TOP TEN BAD BOY ARTISTS” to “100 DEEDS FOR EDDIE McDOWD”.

Likewise, the middle portion of FIG. 3 depicts a comparison between the first three characters of the string “100 DEEDS FOR EDDIE McDOWD” (“100”) expressed in binary the first three characters of the string “10” (“10<EOS>”, where <EOS> indicates “end of string”, and is represented by the binary string 00000000) expressed in binary. Bit 18 is the first bit to differ between the two strings. Thus, in FIG. 2, the number 18 appears beside the solid arrow descending from “100 DEEDS FOR EDDIE McDOWD” to “10”.

Similarly, the bottom of FIG. 3 depicts a comparison between the first three characters of the string “100 DEEDS FOR EDDIE McDOWD” (“100”) expressed in binary the first three characters of the string “101 DALMATIANS” (“101”) expressed in binary. Since the bit-value indicator for the ‘0’ pointer from “100 DEEDS FOR EDDIE McDOWD” points to “10”, with an indication that bit 18 is the first bit to differ, the bit-value indicator for the ‘0’ pointer from “100 DEEDS FOR EDDIE McDOWD” points to “101 DALMATIANS”. However, as is seen in FIG. 3, 100 DEEDS FOR EDDIE McDOWD” and “101 DALMATIANS” do not differ at bit 18, but rather at bit 23.

Reference is now made to FIG. 4, which is a simplified UML diagram showing the relationship between ChannelGroup, Channel, and Service, as implemented in presenting data in the EPG of FIG. 1. EPG data is typically broadcast from a broadcast headend to the receiver. The EPG data preferably comprises lists of programs broadcast at a given time, and instructions to the receiver as to which channel (more formally, according to the DVB standard, to which service) to tune to in order to view a given program at a given time. For instance, if the viewer selects “100 PIECE DRILL BIT SET” at 19:30, broadcast on Channel 2 West, the receiver needs to locate the broadcast data corresponding to the selected program (based on Program Specific Information in the broadcast EPG data) at the selected time on the selected channel (based on Service Information (SI) in the broadcast EPG data). In a preferred embodiment of the present invention, services (which, according to the DVB SI standard correspond to conventional television channels) are grouped into channels, and channels are grouped into groups of channels.

Reference is now additionally made to FIG. 5, which is a simplified block diagram showing the relationship between ChannelGroup, Channel, and Service, useful in illustrating the UML diagram of FIG. 4. Services, such as “Channel 1 South”, “Channel 1 West”, and “Channel 1 Northeast” are grouped together as channels, “Channel 1 Live”. “Channel 1 Live” in turn is a member of a “Channel 1” channel group. Similarly, for a channel and a time shifted channel, the “Channel 2” channel group comprises two channels, “Channel 2 Live” and “Channel 2+1”. Each of “Channel 2 Live” and “Channel 2+1” comprise a corresponding broadcast service.

A more complex example comprising both time shifted channels and regional channels is presented for a “Channel 3” channel group. The “Channel 3” channel group comprises a “Channel 3 Live” channel and a “Channel 3+1” time shifted channel group”. Each of the “Channel 3 Live” channel and a “Channel 3+1” time shifted channel group each comprise three regional services.

It is appreciated that the examples given in FIG. 5 are purely hypothetical channel groups, channels, and services.

As mentioned above, it is preferable to enable A-Z listing of programs in the EPG, as mentioned above. Preferably, EPG A-Z listing supports:

• • a minimum of 7.5 days of scheduling;
  • multi-letter search;
  • event collapsing (described below);
  • genre and subgenre filtering; and
  • fast response times.

EPGs operative in accordance with preferred embodiments of the present invention preferably display two types of events:

• • main events, comprising events which appear in main alphabetical listing screens of the EPG; and
  • collapsed events, comprising events which share a title (for example, the 20:30 instance of “10 TASKS FOR HERCULES” shown in FIG. 1), which only appear in a “collapsed” EPG screen. The collapsed EPG screen is preferably entered by selecting a main event.

Main events preferably show an event which is the showing of the event which starts next, or is present on the air for a given channel group.

Services associated with the same Channel preferably share a unique logical channel number (the logical channel number of the Channel) used in a DVB SI bouquet. Those skilled in the art will appreciate that, preferably, the unique logical channel number is used across multiple bouquets. Thus, as explained above, a channel preferably identifies a combination of regional services comprising both live and time-shifted services.

Services grouped within a channel preferably identify a “collapsing down” of the schedule of the services, such that when a title is shared on multiple services for the same broadcast time (as, for example, “1001 CULTURES” in FIG. 1), only one instance of the title will be displayed in the EPG main A-Z sort screen. The receiver preferably chooses one of the many instances of the shared title to display in the EPG main A-Z sort screen.

It is appreciated that grouping services into channels enables collapsing the schedule down within a given time period. Grouping channels into ChannelGroups enables “collapsing along” a schedule, enabling future broadcasts of the same title to be collapsed, for instance programming on time shifted services.

A service need not be assigned to a channel or channel group. In such a case an arbitrary ChannelGroup number may preferably be assigned to the service based on a Service identifier. For example and without limiting the generality of the foregoing, a service may be assigned an arbitrarily high ChannelGroup number.

One preferred method of ordering an A-Z sort of events within a broadcast stream comprises ordering event data according to the following fields in the following order:

Language, Title, ChannelGroup, Time, Channel, Service

where:

• • Language is according to the ISO 639 language identifier for a language;
  • Title comprises a full event title;
  • ChannelGroup comprises the channel group to which a service is assigned (as described above);
  • Time comprises a broadcast time for the event on the assigned service;
  • Channel comprises the channel within a channel group comprising the assigned service (as described above); and
  • Service is a unique identifier for each service to assist with ordering events with the same title and time within a Channel

Once event data is ordered as described above, main and collapsed events are preferably determined from within the Channel and the ChannelGroup groupings, where the determination is preferably signaled by a LastInChannelFlag (LICF) and LastInChannelGroupFlag (LICGF). The signaling preferably comprises the order:

Language, Title, ChannelGroup, Time, Channel, Service, LastInChannelFlag, LastInChannelGroupFlag

After the event data is ordered in an ordered list, each event is examined to determine a value of the LastInChannelFlag.

The LastInChannelFlag is set to 1 if the ChannelGroup, Time, or Channel differs between the event presently being evaluated and the ChannelGroup, Time, or Channel in the next event within the ordered event data list. If the ChannelGroup, Time, or Channel does not differ from the corresponding ChannelGroup, Time, or Channel in the next event within the ordered event data list, LastInChannelFlag is set to 0.

When the LastInChannelFlag is set to 1, the LastInChannelFlag signals an end of a “channel selection group”. The channel selection group comprises consecutive A-Z ordered entries wherein LastInChannelFlag is set to 0, up to, and including the next entry with LastInChannelFlag set to 1.

The LastInChannelGroupFlag is set to 1 for any event comprising the last event for a given Title string within a ChannelGroup. Otherwise, LastInChannelGroupFlag is set to 0.

For example and without limiting the generality of the foregoing, using the following ChannelGroups, Channels, and Service identifiers (and ignoring the Language field), and the schedule depicted in FIG. 1:

ChannelGroup Name Channel Group
Channel 1         1
Channel 2         2

and,

Channel Name   Channel
Channel 1 Live 1
Channel 1 + 1  2
Channel 2 Live 1

and,

Service Name    Service
Channel 1       1
Channel 1 + 1   2
Channel 2 West  3
Channel 2 South 4

and thus, the ordered event list comprises:

Title	ChannelGroup	Time	Channel	Service	LICF	LICGF
10 Tasks for	1	19:30	1	1	1	0
Hercules		20:30	2	2	1	1
100 Deeds	2	20:30	1	3	0	0
		20:30	1	4	1	1
100 Piece Drill	2	19:30	1	3	0	0
Bit Set		19:30	1	4	1	1
1001 Cultures	2	20:00	1	3	0	0
		20:00	1	4	1	1
101	1	20:30	1	1	1	0
Dalmatians		21:30	2	2	1	1
122's Top 10	1	20:00	1	1	1	0
Bad Boy		21:00	2	2	1	1
Artists
Emergency	1	19:30	2	2	1	0
		20:00	2	2	1	1
Going South	2	21:30	1	4	1	1
News at 9:00	2	21:00	1	3	0	0
		21:00	1	4	1	1
West Scene	2	21:30	1	3	1	1

Main events comprise those events comprised within the ordered event list comprising the same Title within a ChannelGroup within a first Channel comprised in the ChannelGroup.

Collapsed events comprise events within subsequent channel grouping, wherein each channel grouping is terminated by LICF set to 1, until the LICGF is set to 1. For instance, in the table above, “101 Dalmatians” comprises one main event and one collapsed event.

The EPG selects the event for display from each channel grouping as being the event comprising the lowest logical channel number used in the DVB SI bouquet.

Reference is now made to FIGS. 6-9, which are simplified flowchart illustrations of preferred methods of operation of the system of FIG. 1, in accordance with preferred embodiments thereof. FIGS. 6-9 are believed to be self explanatory with reference to the above discussion.

It is appreciated that software components of the present invention may, if desired, be implemented in ROM (read only memory) form. The software components may, generally, be implemented in hardware, if desired, using conventional techniques.

It is appreciated that various features of the invention which are, for clarity, described in the contexts of separate embodiments may also be provided in combination in a single embodiment. Conversely, various features of the invention which are, for brevity, described in the context of a single embodiment may also be provided separately or in any suitable subcombination.

It will be appreciated by persons skilled in the art that the present invention is not limited by what has been particularly shown and described hereinabove. Rather the scope of the invention is defined only by the claims which follow:

Claims

1. A method of optimizing strings comprised in program guide data for transmission, the method comprising:

sharing, in the program guide data, a plurality of strings, each string among the plurality of strings comprising a shared sorting key; and

implementing an order access of a sorted sharing index,

wherein the program guide data and the shared sorting key are comprised in the same data storage structure.

2. The method according to claim 1 and wherein the sorted sharing index comprises a Patricia tree sort index.

3-19. (canceled)

20. A system of optimizing strings comprised in program guide data for transmission, the system comprising:

a string sharer operative to share, in the program guide data, a plurality of strings, the plurality of strings comprising a shared sorting key; and

a sorter operative to implement an order access of a sorted sharing index,

wherein the program guide data and the shared sorting key are comprised in the same data storage structure.

21-23. (canceled)

24. A system of optimizing strings comprised in program guide data for transmission, the system comprising:

means for sharing, in the program guide data, a plurality of strings, the plurality of strings comprising a shared sorting key; and

means for implementing an order access of a sorted sharing index,

wherein the program guide data and the shared sorting key are comprised in the same data storage structure.