FR2920630A1 - Decoder for digital terrestrial TV, has scanning and detecting units scanning data flow and detecting active or inactive state of services, and running status table periodically updated from data included in data flow - Google Patents

Abstract

The decoder (1) has a receiving unit (3) receiving data flow to broadcast services emitted by a satellite (5). A data storage (8) comprises a table e.g. running status table (FRST), including a field indicating an active or inactive state of services entirely equal to or greater than 1, where the services form each declination of a main service is associated with a national channel. Scanning and detecting units (10) scan the data flow and detect the active or inactive state of the services, and the table is periodically updated from data included in the data flow.

Description

Digital television decoder

The present invention relates to a digital television decoder equipped with means for receiving a data stream for broadcasting a plurality of services transmitted by a satellite. The invention finds a particularly interesting application in the context of the broadcasting of national television channels and associated regional stalls; Thus, at certain times, a regional stall of a national television program can be programmed, that is to say that on a television channel selected by a subscriber, a regional program is transmitted in place of the national program. For example, the French national channel France 3 now offers 24 regional dropouts. In the case of digital terrestrial television, the dropping of the national channel to the regional channel is done at the head of the network which replaces the national program by the regional dropping out and emits the latter. We are here in the presence of a simple switching where we move from a chain having a certain content to another channel having a different content. The management of regional stalls is much more complex in the context of satellite broadcasting insofar as the digital television decoder responsible for receiving and processing the received signals does not receive a single regional stall but a plurality (24 for example in the case of France 3). Therefore, the decoder must be able to manage not a switch from a national channel to a regional stall but from a national channel to a plurality of regional stalls.

In this context, the present invention aims at providing a digital television decoder equipped with means for receiving a data stream for broadcasting a plurality of services transmitted by a satellite and making it possible to effectively manage the switches between the national beaches and regional stalls of national programs.

To this end, the invention proposes a digital television decoder comprising: means for receiving a data stream for broadcasting a plurality of services transmitted by a satellite; storage means, the decoder being characterized in that: - the storage means comprise a table including a field indicating the active or inactive state of N services each forming a declination of a given service, said main service, N being an integer greater than or equal to 1, - the decoder comprises means for scanning the data stream and detecting said states, the table being periodically updated from data included in the data stream. The term "declination" refers to either a regional dropout from a national program (ie the main service) or a local or regional program which is not strictly speaking a regional dropout but which can be assimilated to such a stall (sports channel local, for example, issuing only occasionally). Thanks to the invention, a table is used to know, for each stall, whether the latter is active or not. The update of this table must be periodic (with the shortest possible cycle time) so as to allow the decoder to have permanent access to the state of the stalls and to be able to switch quickly on a Regional stalling becomes active when the viewer looks at a national program but also to switch back to the national program when the regional dropout becomes inactive.

This table can be for example a private table inspired by the RST Running Status Table table mechanism defined according to the DVB Digital Video Broadcasting standard: this private table must be adapted to the management of regional stalls by giving it a particular data value packet identification or PID Packet Identification Data and a particular value of table identifier or table_id defined according to the DVB standard; it must also be periodically updated, unlike the RST table defined in the DVB standard, which is updated only occasionally.

The device according to the invention may also have one or more of the characteristics below, considered individually or in any technically possible combination. Preferably, the update period of the table is between 100 ms and 1 s; this period is advantageously 500 ms. According to a particularly advantageous embodiment, the main service is associated with a national channel and the declination services form regional stalls of the national chain. Advantageously, the decoder according to the invention comprises means for configuring a default service among the N services forming a declination of the main service and / or means for allowing the user to select a service among the N services forming a variation of the main service. Advantageously, the decoder according to the invention comprises means for periodically checking the state of the default service or of the service selected by the user in the following two situations: the decoder broadcasts the string corresponding to the main service to which it is linked the default service. the decoder broadcasts the channel corresponding to the default service or the string corresponding to the service selected by the user. Note that in this case, the control period must be close (or even identical) to the update period of the table: the control period is therefore between 100 ms and 1 set is advantageously 500 ms.

Preferably, the decoder according to the invention comprises: means for switching from the chain corresponding to the main service to the chain corresponding to the default service when the state of the default service becomes active. means for switching from the chain corresponding to the default service or the service selected by the user to the chain corresponding to the main service when the state of the default service or the service selected by the user becomes inactive.

According to a particularly advantageous embodiment, the table is a private table identified by a particular value of packet identification data or PID Packet Identification Data and of table identifier or table_id defined according to the DVB standard, said table comprising for each declination service: - a DVB triplet including: o a network identification field or original_network_id, o a multiplex identification field or transport_stream_id, o a service identification field or service_id; a state indication field or runing_status forming said field indicating the active or inactive state of the service. Advantageously, the field indicating the active or inactive state of each of the N services is a field coded on 3 bits, the decimal value 1 of the field indicating that the state is inactive and the decimal value 4 of the field indicating that the state is active. Advantageously, the storage means comprise a table BAT Bouquet Association Table defined according to the DVB standard including a bouquet dedicated to all the main services with declensions and the services forming these declensions.

Advantageously, the storage means comprise a service description table SDT Service Description Table defined according to the DVB standard including a dedicated LCN Logical Channel Number field used for each service forming a declination of a main service and taking a value identifying said main service .

Other characteristics and advantages of the invention will emerge clearly from the description which is given below, by way of indication and in no way limiting, with reference to the appended FIG. 1 which is a simplified schematic representation of a decoder according to FIG. invention. FIG. 1 represents a decoder 1 according to the invention.

The decoder 1 is connected with a display device 2 for displaying on the screen of the latter broadcast programs received on reception means 3 of the decoder 1.

In a known manner, the receiving means 3 are connected to a dish 4 in relation to a satellite 5. The signals coming from the satellite 5 are amplified and converted in the range 950-2150 MHz by a converter located at the focus of the 4 and then applied to the input of the reception means 3. The television channels broadcast by the satellite 5 use the MPEG-2 standard (or the MPEG-4 standard) for the compression of their audio and video services as well as for the format of the transport package; in connection with the choice of compression, the DVB-S (or DVB S2) transmission standard is used.

The decoder 1 comprises in principle a microprocessor 6 in relation to the reception means 3. The microprocessor 6 is connected to the reception means 3 as well as to a program memory 7 and a data memory 8 via 9. The bus 9 can also be used to transmit to the display device 2 the images to be displayed. The decoder 1 also comprises unrepresented formatting means for transforming the received signals into signals that are directly applicable to the control members of the display device 2. For a cathode ray tube, these are, for example, commands applied to the control devices. scanning and on the different electron guns producing color pixels on the screen. The formatting is carried out respecting for each of the images to be represented parameter tables stored in the data memory 8. In digital television, it is expected that the parameter signals are transmitted in the stream (ie with the video signal itself) in data packets. The transmitted data packets are arranged in sections, the sections typically comprising 1024 bytes and in some cases 4096 bytes. Packages of the same table are not necessarily grouped in the same section. They can be re-divided into successive sections, interleaved with information packets relating to other tables or to the video, audio, data or other signal. In each section, identifiers are used to assign the data packets to particular tables among others. In reception, a decoder does not know in advance how the data packets are distributed but knows the division of the sections. The decoder must read the identifier in each section and rearrange the data to assign them to the right tables. All the tables are edited by the television operator, are incorporated in the flow of this operator, and are routed to the users. The program memory 7 comprises for this purpose means 10 able to implement a scanning operation and detection of the parameters in the data stream received on the reception means 3: these parameters are stored in the tables contained in the memory of Data 8. Finally, a whole table architecture is thus distributed, in particular according to the ETSI EN 300 468 standard. In the following we will describe only the tables necessary for the implementation of the invention, it being understood that other tables are used to perform functions unrelated to the invention. The technical problem solved by the decoder according to the invention is that of the management of regional décrochages; to do this, the decoder according to the invention must meet the following three expectations: - identify national programs offering regional stalls, - allow the user to choose for each national program offering regional stalls, a stall regional default or regional dropout selected from a menu, - manage switching between national beaches and regional out- breaks of the programs in question. The answer to the first two expectations assumes that the decoder makes it possible both to identify regional dropouts but also to link each of them to the national program to which they are attached. The term "service" conventionally refers to what the users call a television channel, for example a channel broadcasting successive programs over the course of the day; however, the services may be audio only services or data services and the channels may include multiple services. In what follows, the notion of supply comprising all the services offered by the operator will be mentioned.

The data memory 8 further comprises a Service Description Table (SDT) service description table which provides information on the services present in the multiplex; each multiplex broadcasts an SDT sub-table. All services potentially present are described and the dynamic nature of the services can be indicated by a status field or running_status. Each service is thus identified in a Network In-Training Table (NIT) table by a DVB triplet representing: a so-called original_network_id information; the service offer of the operator uses an information of original_network_id dedicated to this diffusion. a transport_stream_id information (multiplex identification), typically this information designates one of the transponders in relation to the satellite; - Information called service_id (Service Identification), which is a number assigned by the operator who manages the satellite to the transmission of this service. The segmentation of service_id values given in hexadecimal in Table 1 below will be used later for the numbering of services offered by the operator. Value of the service id Note 0x0801 to 0xOFFF National programs 0x01000 to OxEFFF Regional variations of national programs OxF000 to DxFFFF Local or regional programs Table 1 Thus the numbering of the programs specifically takes into account the distribution of regional stalls with different service numbers allowing their reception by the decoder 1. It should be noted that there is also provision for the presence of local or regional programs which are not, strictly speaking, regional stalls but which can be treated as such.

The data memory 8 further includes a table (Bouquet Association Table): a table BAT is used to group the presentation to the user of different packages of services. Each bouquet is associated with a bouquet ID or bouquet_id. For example, a first bouquet_id could list French-language television programs; a second bouquet_id would propose the list of French-language radio programs; a third bouquet_id 3 would propose the list of television programs in English. To facilitate the identification of the programs of the offer having regional stalls, the table BAT includes a bouquet_id dedicated to all of these programs having regional stalls. This bouquet will include all the national programs with regional stalls and the regional stalls in question. The SDT table has a dedicated descriptor, already used in DVB-T and known as the LCN or Logical Channel Number: this descriptor is used in DVB-T to provide a numbering services. In the context of this invention, it is diverted from its primary use since the LCN descriptor will be used only for regional stalls and regional or local programs. For each of the regional program offsets (service_id between 0x1000 and OxEFFF), this LCN descriptor indicates the national program to which it is attached. Similarly, in case of local or regional programs (service_id between OxF000 and OxFFFF), the LCN indicates the national program to which they are attached. On the other hand, for a national program, the number of the service_id giving directly its numbering, it is not useful to use the descriptor LCN. The various points mentioned above are summarized in Table 2 below: Value of Service id Use of LON 0x0001 to 0x0FFF No Ox1000 to OxEFFF Yep OxF000 to 0xFFFF Ass Table 2 So, if an LCN is used and it has a value x, the decoder is in-formed of three elements: - it is a regional stall (or a local or regional program), - this regional stall is attached to the program x, - the program xa to less a regional dropout. The presence of the table BAT and the use of the descriptor LCN per-decoder 1 at a time to identify the regional stalls but also to link each of them to the national program to which they are attached. It will be noted that this function is fulfilled mainly by the presence of the LCN descriptor; the BAT table and its bouquet_id dedicated to all of these programs having regional stalls allow the decoder 1 to save time by limiting its scanning to the dedicated bouquet. The decoder 1 furthermore comprises means 11 for configuring a regional default stall among all the available regional stalls of a national program and means 12 for allowing the user to select from a menu a regional stall among all available regional dropouts from a national program. Thus, for each national program having regional stalls, the decoder 1 proposes via the means 11 of configuration, the list of regional stalls available so that the user chooses the one he wants to see by default during automatic stalls (on which we will come back to later). For each national program with regional stalls, this choice of regional default stall can be proposed: - during the first installation of the decoder 1 after having detected all the national programs having regional stalls (via the table BAT and the descriptors LCN of the SDT table), - when new regional stalls of this national program are available (via the updating of the SDT table), - when the regional stall previously chosen by default is no longer distributed (ie does not have any more Associated LCN when updating the SDT table).

The viewer can also at any time via the means of selection 12 modify his choices of regional stalls through menus that are proposed. In order to manage the switching between a national program and the regional stalls, the data memory 8 includes a table called FRST. One way is to use the syntax of the RST table (Running Status Table) defined by the DVB standard and privatize it with some modifications. It should be noted that the RST has absolutely no function of managing failovers: the RST is normally transmitted for the quick update of events, once, at the moment a change occurs (it is not therefore not transmitted periodically). It will further be noted that the failover management mechanism according to this embodiment relies at most on an adaptation of DVB mechanisms while being independent of a specific operating system. The DVB standard provides for the fact that broadcasters (satellite, terrestrial, cable or other broadcasts) can themselves define so-called private tables for their own needs. Each table is identified by particular Packet Identification Data (PID) values and Table Identifiers ("table_id"), whose values are either defined by the standard or define in the case of privatized tables. The privatized FRST table differs from the RST table by the following points: - it is first necessary to take a table_id value different from 0x71 in hexadecimal (table_id of the RST) and a PID value different from 0x13 in hexadecimal ( PID of the RST), it is also advisable to make the emission of this table periodic with a period of update as short as possible so as to reduce the transition time between the availability of the program and its provision to the user. ): this period can be between 100 ms and 1s.

By way of example, the table FRST can thus be defined by the following values: PID = 243 in decimal (or OxF3 in hexadecimal); - Table_id = 243 in decimal (or OxF3 in hexadecimal); - Emission period = 500 ms (versus one-off transmission when needed for the RST table). The cycle time of 500 ms is particularly advantageous insofar as: - It is very short; - It corresponds to a cycle time already used for other existing tables (the PMT Program Map Table); therefore, existing decoders are able to handle cycle times like this. The FRST table is segmented into a run-ning_status_section; its syntax is given in Table 3 below. The FRST table uses a three-bit running_status field indicating the active or inactive state of the N (i ranging from 0 to N-1 in the syntax of Table 3 below) associated with a national program. If the field running_status is 1 in decimal, the regional stall is inactive and if the field running_status is set to 4 in decimal, the regional stall is active. Other values in the running_status field are not used. It should be noted that since the PID and table id values of this table are different from the RST table, if a decoder were also to manage an RST table, there would be no identification conflict with the FRST table dedicated to failover management.

Syntax Number of bits running_status_section0 {Table id 8 section_syntax_indicator 1 reserved future_use 1 reserved 2 section_length 12 for (i = 0; i <N; i ++) {16 transport_stream_id original_network_id 16 service id 16 event_id 16 reserved _ future_ use 5 running_status 3}} Table 3 The following is a brief description of the other fields that the running_status field used in the FRST table: Section_syntax_indicator: 1-bit flag set to 0 Section_Iength: A 12-bit field whose first two bits are set to 00. It indicates the number of bytes in the section, starting immediately after the section_Iength field and going to the end of the section. Transport_stream_id: 16-bit field used to identify the multiplex. Original_network_id: 16-bit field used to identify the network being the original network of the program. Service_id: 16-bit field used to differentiate this service from any other service. Event_id: For the RST table, it is a 16-bit field that contains the identification number of the event to which it refers. In the case of the FRST table, this field is not used by the decoder. Concerning the event_id field, since it is not used by the decoder, one can either set it to 0 or delete it from the table. In order to use the FRST table, the decoder 1 comprises: means 13 for periodically monitoring the running_status status of the regional default stall or the regional stall selected by the user in a menu. means 14 for switching from the national channel to the default regional channel according to the state of the running_status; means 15 for switching from the regional channel by default or from the regional channel selected by the user to the national channel according to the state of the running_status. The periodic control means 13 preferably have a control period substantially equal to the updating period of the table FRST (i.e. 500 ms according to the embodiment described). We will now describe four possible examples of use of the decoder 1. 1st case: the user looks at a national chain (service_id <0x1000). The decoder 1 checks in the table BAT and in the LCN of the table 20 SDT, via unrepresented scanning means, if the service_id of the channel in question is associated with regional stalls (i.e. service_id = LCN). 10 If the answer to the previous question is negative, the viewer continues to watch the national channel. If the response is positive, the decoder 1 periodically checks, via its means 13, the running_status state of the regional dropout chosen by default associated with this national channel in the FRST table. If the running_status becomes active, the decoder informs the viewer of the automatic switchover to the regional stall and performs switching via the switching means 14. The viewer automatically accesses the regional stall. 2nd case: the user looks at a regional stall (0x1000 <service_id <OxEFFF). The decoder 1 periodically checks, via its means 13, the running_status state of the regional stall in the table FRST. If the running_status becomes inactive, the decoder 1 checks in the LCN which is the national chain associated with the regional stall. The decoder 1 informs the viewer of the automatic switchover to the national channel by indicating the momentary absence of the regional stall and performs the switchover via the means 15. 3rd Case: the user zaps on a national chain (ser-vice_id <0x1000) . The decoder 1 checks in the BAT table and in the LCN of the SDT table, via unrepresented scanning means, if the service_id of the channel in question is associated with regional stalls (i.e. service_id = LCN).

If the national channel is not associated with a regional dropout, the viewer accesses the desired national channel. If the national channel is associated with a regional stall, the decoder 1 checks whether the list of regional stalls associated with this program has changed.

If the list has changed, the decoder 1 proposes to the user via his means of configuration 11 to update the choice of regional stall by default.

If the list has not changed, the decoder 1 verifies via its means 13, the state running_status regional stall in the table FRST. If the state is active, the decoder 1 informs the viewer of the automatic rocking-ment to the default regional stall chosen and performs the switchover via switching means 14. 4th Case: the user zaps on a regional stall (0x1000 < service_id <OxEFFF), for example via the selection means 12. The decoder 1 controls via its means 13, the running_status state of the regional stall in the table FRST.

If the running_status is active, the viewer automatically accesses the desired regional stall; in this case, the decoder 1 periodically checks, via its means 13, the running_status state of the regional stall in the FRST table to detect a possible switchover to the national channel.

If the running_status is inactive, the decoder 1 checks in the LCN which is the national chain associated with the regional stall. The decoder 1 informs the viewer of the automatic switchover to the national channel by indicating the momentary absence of the regional stall and performs the switchover via the means 15. The decoder 1 then periodically checks, via its means 13, the running_status stall in the FRST table to detect a possible switch to the desired regional stall. Of course, the invention is not limited to the embodiment just described.

In particular, the means and / or memories shown in FIG. 1 are functional units that may or may not correspond to physically distinguishable units. For example, these means and / or memories can be grouped together in a single component, or constitute functionalities of the same software. On the other hand, certain means and / or memories may optionally be composed of separate physical entities. In addition, it is quite possible to overcome the use of the BAT table or LCN field of the SDT table by using a proprietary operating system to identify national channels and their regional stalls. Finally, any means can be replaced by equivalent means

Claims (10)

1. Digital television decoder (1) comprising: - means (3) for receiving a data stream for broadcasting a plurality of services transmitted by a satellite (5), - memory means (8) , said decoder (1) being characterized in that: - said storage means (8) comprise a table (FRST) including a field indicating the active or inactive state of N services each forming a declination of a given service, said main service, N being an integer greater than or equal to 1, - said decoder (1) comprises means (10) for scanning said data stream and detecting said states, said table (FRST) being periodically updated from data included in said data stream. 2. Decoder (1) according to claim 1 characterized in that the period of updating of said table (FRST) is between 100 ms and 1 s and is in particular 500 ms. 3. Decoder (1) according to one of the preceding claims charac- terized in that said main service is associated with a national channel and said declination services form regional stalls of said national channel. 4. Decoder (1) according to one of the preceding claims characterized in that it comprises means (11) for configuring a default service among said N services forming a declination of said main service and / or means (12). ) to allow the user to select a service from among said N services forming a declination of said main service. 5. Decoder (1) according to the preceding claim characterized in that it comprises means (13) for periodically monitoring the state of said default service or said service selected by the user in the following two situations: - said decoder ( 1) broadcasts the channel corresponding to the said main service to which the default service or the service selected by the user is linked. said decoder (1) broadcasts the string corresponding to said default service or the string corresponding to said service selected by the user. 6. Decoder (1) according to the preceding claim characterized in that it comprises: - means (14) for switching from said chain corresponding to said main service to the chain corresponding to said service by default when the state of said service by default becomes active. means (15) for switching from said channel corresponding to said default service or to said service selected by the user to said channel corresponding to said main service when the state of said default service or said service selected by the user becomes inactive. 7. Decoder (1) according to one of the preceding claims, characterized in that said table (FRST) is a private table identified by a particular value Packet identification data packet identification and PID data and identifier. table or table id defined according to the DVB standard, said table including for each declination service: a DVB triple including: o a network identification field or original_network_id, o a multiplex identification field or transport_stream_id, o a field service identification or service_id; a state indication field or runing status forming said field indicating the active or inactive state of said service. 8. Decoder (1) according to one of the preceding claims characterized in that said field indicating the active or inactive state of each of the N services is a field coded on 3 bits, the decimal value 1 of said field indicating that the state is inactive and the decimal value 4 of said field indicating that the state is active. 9. Decoder (1) according to one of the preceding claims characterized in that said means (8) for storage include a table BAT Bouquet Association Table defined according to the DVB standard including a bouquet dedicated to all the main services with variations as well as the services forming these variations. 10. Decoder (1) according to one of the preceding claims characterized in that said means (8) for storage comprise a service description table SDT Service Description Table defined according to the DVB standard including a dedicated field LCN Logical Channel Number used se for each service forming a declination of a main service and taking a value identifying said main service.