WO2014001269A1 - Method and device for timestamping a data stream in a radio broadcasting network, method and device for inserting a secondary data stream into a main data stream, and corresponding computer program products and storage medium - Google Patents

Abstract

The invention relates to a method for timestamping a data stream organised in the form of successive frames, in a digital radio broadcasting network, comprising a timestamping step, for at least one current frame of the data stream, said timestamping step including the following sub-steps and supplying at least one timestamped frame: determining at least one time-based datum; and adding at least one timestamping field to the current frame, said field comprising at least one time-based datum.

Description

METHOD AND DEVICE FOR TIMING A DATA STREAM IN A NETWORK

RADIO BROADCAST, METHOD AND DEVICE FOR INSERTING A DATA STREAM

SECONDARY IN A MAJOR DATA STREAM, COMPUTER PROGRAMS AND MEDIUM

 CORRESPONDING STORAGE

1. DOMAIN OF THE INVENTION

 The field of the invention is that of the transmission and broadcasting of digital information.

 More specifically, the invention relates to a time stamping technique of a digital data stream for the synchronous / deterministic insertion of at least a part (for example a component) of a secondary data stream into a data stream. main.

 The invention applies in particular, but not exclusively, to a digital data stream conforming to one of the following or future standards:

 - DAB or DAB + (for "Digital Audio Broadcasting" or "Digital Broadcasting", described in ETSI EN 300 401);

 DMB (for "Digital Multimedia Broadcasting" or "Digital Multimedia Broadcasting", described in ETSI TS 102 428);

 - DRM (for "Digital World Radio" or "World Digital Radio", described in ETSI ES 201 980);

 - etc.

 In a preferred embodiment, but not exclusively, these time stamping and insertion techniques are part of a context of SFN networks ("Single Frequency Network" or "MFN"). Multiple Frequency Network "in English, for" multi-frequency network ").

 2. TECHNOLOGICAL BACKGROUND

 In the remainder of this document, the problematic existing in the field of synchronous / deterministic data insertion of a secondary stream in a main stream, in a digital broadcasting SFN network, to which faced by the inventors of the present patent application.

The invention is of course not limited to this particular field of application, but is of interest for any time stamping and / or insertion technique. synchronous / deterministic data of a secondary flow in a main flow, facing a similar problem or similar.

 Techniques for inserting part of a secondary stream into a main stream that require modifying or reconstructing a complete ensemble multiplex before feeding a regional SFN plate are currently known. Indeed, the insertion must be executed at the same time, that is to say in a synchronous manner, so that each signal output from the DAB modulator is identical and can therefore maintain the SFN characteristic of the network. A disadvantage of these techniques lies in their complexity due to the need to reconstruct a complete ensemble multiplex with the inserted components.

 A technique is known for inserting part of a secondary flow into a main stream, described in particular in patent document FR2940563, based on the transmission of specific marking packets, from a main diffuser to a secondary diffuser, to indicate a time range during which it can "drop out" of a main program and broadcast a secondary program, such as a local radio program. A disadvantage of this technique lies in the transmission of these specific packets, requiring a change in the main stream or the transmission of packets out of this stream. Furthermore, another disadvantage of this technique of the prior art lies in the lack of precision of the timestamp order, not allowing precise insertion.

 Another technique is also known for inserting part of a secondary flow into a main flow, described in particular in patent document FR2902591, based on the construction of a file to be inserted and a description file comprising timestamp information for insertion. A disadvantage of this technique lies in the creation of these two files, making the insertion mechanism more complex and requiring in particular a conversion of a digital stream comprising the components to be inserted into a file to be inserted.

3. OBJECTIVES OF THE INVENTION

The invention, in at least one embodiment, is intended in particular to overcome these various disadvantages of the state of the art. More specifically, in at least one embodiment of the invention, one objective is to provide a synchronous and deterministic insertion technique for part of a secondary stream in a main stream, which can thus be used in the SFN environment ( ensuring that insertions made in various equipment are made at the same time).

 Another objective of at least one embodiment of the invention is to provide such an insertion technique that does not require modification of the main flow and therefore does not require additional specific equipment.

 At least one embodiment of the invention also aims to provide such a synchronous insertion technique does not require external synchronization reference (GPS type for example).

 At least one embodiment of the invention also aims to provide such an insertion technique for a simple and inexpensive implementation.

 4. PRESENTATION OF THE INVENTION

 In a particular embodiment of the invention, there is provided a method of timestamping a data stream organized in successive frames, in a digital radio broadcasting network, comprising, for at least one current frame of the data stream. , a timestamping step comprising the following substeps and delivering at least one dated horo frame:

 determining at least one temporal information;

 adding, in the current frame, at least one timestamp field comprising at least the temporal information.

Thus, this particular embodiment of the invention is based on a completely new and inventive approach to the timestamping of a data stream, allowing precise timestamping of some of the frames of this stream, and allowing, for example, to insert locally, in a SFN plate, upstream of each transmitter, one or more components (for example an audio component) coming from a so-called secondary stream (for example an Ensemble Transport Interface (ETI) ) or an ITS local service transport flow for "Service Transport Interface" in the DAB stream for example, said main stream, so synchronous (at the same time) and deterministic. Thus, each output signal of the modulator is identical and can retain the SFN characteristic of the network.

 To do this, a timestamp field is added to certain frames of the two streams (main and secondary), based on previously obtained temporal information.

 According to one particular aspect of the invention, the step of determining at least one temporal information comprises the following sub-steps:

 if the current frame is an "ETI" type frame:

 o if the "FIG 0/10" field is present:

^■ obtaining temporal information, from the "FIG 0/10"field;

^■ initialization of the timestamp field of the current frame with the temporal information obtained;

 o if not, updating the timestamp field of the current frame from the temporal information previously obtained for the frame preceding the current frame, incremented by a predetermined value; if the current frame is an "STI" type frame:

 o if the "DFCTH" part of the "DFCT" counter is equal to 0:

^■ if the "DFCTL" part of the "DFCT" counter is equal to 2 ⁿ x480 ms, with n≥l: initialization of the timestamp field of the current frame with the value of the timestamp field added to the last frame of type " ETI "complete received;

 o if not, updating the timestamp field of the current frame from the value of the timestamp field of the frame of type "STI" preceding the current frame, incremented by a predetermined value.

 It is therefore not necessary to add a particular signal to the stream in order to be able to time stamp it, therefore no preparation of the flow is necessary at the national level, and no specific equipment is therefore required.

 Moreover, it is also not necessary to use an external synchronization reference (for example of the GPS type).

Indeed, the temporal information used to fill in the added timestamp field is read in the stream, according to the type of processed frame. According to a particular characteristic, the temporal information corresponds to the value of the field "FIG 0/10" converted into a multiple of the duration of a frame.

 For example, for a DAB stream, the duration of a frame is 24ms, and the time information corresponds to the value of the field "FIG 0/10" converted into units of 24ms.

 According to a particular embodiment of the invention, the predetermined value is equal to the duration of a frame, which is also 24 ms for a DAB stream for example.

 Thus, when the value of the timestamp field added to a current frame is updated, the value of the field added to the previous frame of the duration of a frame is incremented, ie 24 ms for example.

 According to a particular aspect of the invention, the data stream conforms to a digital radio broadcasting standard belonging to the group comprising:

 the DAB standard;

 the DAB + standard;

 the DBM standard.

 The invention also relates, according to another embodiment, to a device for timestamping a stream of data organized in successive frames, in a digital radio broadcasting network, comprising, for at least one current frame of the data stream, timestamping means comprising the following means and delivering at least one timestamped frame:

 means for determining at least one temporal information; means for adding, in the current frame, at least one timestamp field comprising at least the temporal information. Advantageously, the time stamping device comprises means for implementing the steps that it performs in the time stamping method as described above, in any one of its various embodiments.

In another embodiment of the invention there is provided a computer program product which includes program code instructions for implementing the time stamping method (in any one of its various embodiments). ), when said program is run on a computer. In another embodiment of the invention, there is provided a computer-readable and non-transitory storage medium storing a computer program comprising a set of computer-executable instructions for implementing the time stamping method. (in any of its various embodiments).

 In another embodiment of the invention, there is provided a method of inserting at least a portion of a secondary data stream into a main data stream, thereby providing a resulting data stream, each stream being organized in successive frames.

 According to one embodiment of the invention, the insertion method comprises the following steps, for at least one frame of the main stream, called the first frame, and at least one frame of the secondary stream, called the second frame:

 a time stamping step according to the time stamping method according to any one of its various embodiments described above; a step of inserting the part of the secondary stream into the main stream, according to the first and second timestamped frames delivered by the timestamp step.

 According to a particular characteristic of the invention, the component to be inserted into the main stream corresponds to an audio type component of the secondary stream.

 According to a particular aspect of the invention, the resulting stream is a stream to be broadcast by at least one transmitter of a SFN type broadcast network, in which each of the transmitters uses the same transmission frequency of the data of the resulting stream. .

 This insertion can be permanent (the audio frame of a service is for example replaced by that of another service) or punctual ("unhooking" of a service).

In another embodiment, the invention relates to a device for inserting at least a portion of a secondary data stream into a main data stream, thereby obtaining a resulting data stream, each stream being organized in successive frames. According to one characteristic of the invention, the insertion device comprises the following means, for at least one frame of the main stream, called the first frame, and at least one frame of the secondary stream, called the second frame:

 timestamping means comprising a timestamping device according to any one of its various embodiments described above; means for inserting at least part of the secondary stream into the main stream, as a function of the first and second time stamped frames delivered by the time stamping means.

 Advantageously, the insertion device comprises means for implementing the steps it performs in the insertion method as described above, in any of its various embodiments.

 In another embodiment of the invention, there is provided a computer program product that includes program code instructions for implementing the insertion method (in any one of its various embodiments). ), when said program is run on a computer.

 In another embodiment of the invention, there is provided a computer-readable and non-transitory storage medium, storing a computer program comprising a set of computer-executable instructions for implementing the insertion method. (in any of its various embodiments).

5. LIST OF FIGURES

 Other features and advantages of the invention will appear on reading the following description, given by way of indicative and nonlimiting example, and the appended drawings, in which:

 Figure 1 shows an example of an insertion system according to a particular embodiment of the invention;

Figures 2a to 2c show the main steps of a particular embodiment of the time stamping method and the insertion method according to the invention; FIGS. 3 a and 3b show an example of initialization of a timestamp field according to a first particular embodiment of the invention; FIG. 4 shows an example of initialization of a timestamp field according to a second particular embodiment of the invention; Figures 5a to 5c show two examples of insertion according to two particular embodiments of the invention;

 FIG. 6 shows the structure of a time stamping device according to a particular embodiment of the invention.

 In all the figures of this document, the elements and identical steps are designated by the same numerical reference.

6. DETAILED DESCRIPTION

6.1 General principle

 The general principle of the invention is based on a precise time stamping of certain frames of a main data stream and a secondary data stream allowing a synchronous and deterministic insertion of a part of the secondary stream in the main stream, for example the audio component of the secondary stream.

 Thus, the timestamping of certain frames (the frames to be modified in the main stream and the frames comprising the component to be inserted from the secondary stream) makes it possible to deliver one or more resulting streams, after insertion, synchronous with the main stream. .

 This insertion, according to the various particular embodiments of the invention, can in particular be implemented in a device for time stamping then the deterministic and synchronous insertion, and if necessary the modification of the signaling, noted "deterministic inserter" As shown in Figure 1.

 This FIG. 1 shows an exemplary time stamping and insertion system according to any one of the embodiments of the invention, in a DAB network, comprising a plurality of providers of service components A ... Z. These providers deliver a plurality of STI frames to an ensemble provider E, which in turn delivers a plurality of ETI frames.

The "deterministic inserters" according to any of the embodiments of the invention receive these ETI frames, as well as local data via a local data / program provider L, in order to time stamp the frames and to provide, after insertion local components, a synchronous DAB signal. 6.2 Description of Embodiments of the Invention

6.2.1 Timestamping and insertion

 The main steps of the time-stamping method and the insertion method according to a particular embodiment of the invention are now presented in relation with FIGS. 2a to 2c.

 A first timestamping step 20 is implemented, for at least one frame of the stream, delivering at least one timestamped frame.

 This first timestamping step comprises a first substep 201 of determining a temporal information, which then makes it possible to add to the frame a time stamp field comprising at least this temporal information, during a sub-step 202. The frames to which a timestamp field has been added are denoted "timestamped frames", and then allow the implementation of a step 21 of inserting part of a secondary stream into a main stream, as illustrated in FIG. Figure 2b.

 This insertion step 21 delivers a resulting stream, in which one or more components of certain frames of the original main stream has been replaced by one or more components of certain frames of the secondary stream. Thus, as illustrated in FIG. 2b, the timestamping step 20 is implemented on at least one frame of a main stream {Frame 1) and at least one frame of a secondary stream {Frame 2) and delivers at least one frame of a main stream minus two timestamped frames {Timed 1 frame and 2 timestamped frame).

 For example, according to a particular embodiment of the invention illustrated in FIG. 2c, the frames to time stamp of the main and secondary streams are identified respectively during the detection steps 101 and 102, making it possible to detect at least one frame to be modified (of which a component must be replaced) in the main stream and at least one modification frame (one component of which must be inserted) in the secondary stream.

According to this particular embodiment of the invention, the synchronous and deterministic insertion consists in replacing, in the first frame to be modified timestamped of the original stream, one or more components by one or more components of a timestamped modification frame. secondary stream having a timestamp field of similar or near value. The following frames of the main stream, previously timestamped, are modified by the frames of the secondary stream, according to the same principle, by replacing one or more components of the main stream frames with one or more components of the frames of the secondary stream.

 It is recalled that in the context of a DAB architecture SFN network, all the "deterministic inserters" receive the same main stream and can therefore timestamp the frames in the same way and perform the insertion in the same synchronous and deterministic manner.

 6.2.2 Initializing the timestamp field

 FIGS. 3a and 3b show examples of initialization of a timestamp field according to two particular embodiments of the invention.

 According to a first embodiment, illustrated in FIG. 3b, the incident frame is an ETI type frame and the value of the timestamp field is initialized from the content of FIG field 0/10, whose structure is illustrated in FIG. 3a. .

 Firstly, an ETI-type frame is detected, one of which is to replace one of the components, and then the presence or absence of the FIG field 0/10 is detected in this frame.

 If the field FIG 0/10 is present, one thus obtains, by its contents, and more particularly by the field UTC, a temporal information, representing, according to its form (short or long), respectively hours and minutes, or hours, minutes, seconds and milliseconds.

 This time information is converted into a multiple of the duration of a frame, for example, in DAB, 24 ms.

 Thus, the value of a timestamp field can be initialized with this obtained temporal information.

 In a second step, this timestamp field initialized as described above is added to the frame ETI.

If the FIG 0/10 field is not present, then the timestamp field is updated from the value of the timestamp field added to the previous ETI frame. current frame, to which is added the value of the duration of a frame, for example, in DAB, 24 ms.

 According to a second embodiment, illustrated in FIG. 4, the incident frame is a frame of type STI and the value of the timestamp field is initialized from the content of the counter DFCT.

 In a first step, a frame of type STI is detected, which one wishes to be timestamped to insert one of its components in the frame ETI to modify, then one detects in this frame the counter DFCT (the frames STI not including field FIG 0/10 as seen previously for ETI frames).

 This DFCT counter is divided into two parts:

 a DFCTH part, modulo 20, passing through 0 every 480 ms; a DFCTL part, modulo 250, passing through 0 every two minutes.

The change to 0 of the modulo portion 20 of the counter DFCT is used to initialize the value of the timestamp field added thereafter to the STI frame.

 Thus, according to a first variant, the value of the timestamp field of the STI frame is initialized each time the DFCTH part of the counter is set to 0, with the value of the timestamp field added to the last complete received ETI frame.

 In this way, the value of the timestamp field is initialized every 480 ms.

 This duration may, however, be too short compared to the transit time of the frames in the transport networks.

 Thus, according to a second variant, the value of the counter portion DFCTL is used to increase the initialization period of the value of the timestamp field of the frame STI.

 For example, the initialization period may be equal to 2 periods of 480 ms.

In that case, if we choose n = 5, then the value of the timestamp field of the current STI frame is initialized every 15 seconds (2 ⁵ = x480ms 32x480ms), with the added value of the timestamp field in the last complete ETI frame received.

In addition, it is important not to choose too much initialization period, because it determines the restoration of the good functioning after a powering of a device. 6.2.3 Incrementing the timestamp field

 In the two embodiments described above, in relation to FIGS. 3a, 3b and 4, the frames following the first timed frame with the initialized timestamp field are then also time stamped, by incrementing the value of the timestamp field. the duration of a frame, for example 24 ms in DAB.

6.3 Examples of insertion

 FIGS. 5a and 5b illustrate examples of respectively inserting an audio component of a STI frame in a "national" ETI frame and an audio component of a "local" ETI frame in a "national" ETI frame .

 According to the first example illustrated in FIG. 5a, the STI and ETI frames are time stamped according to any of the embodiments of the invention described above, and when the timestamp of the frame STI comprises a component to be inserted and the timestamp of the ETI frame to be modified are identical, or shifted by a constant predetermined value, then the audio component of the STI frame is copied in place of the audio component of the ETI frame, and more precisely in the "Capacity Units" the sub-frame "MSC" (for "Main Service Chanel"), and so on for all ETI frames to be modified.

 According to the second example illustrated in FIG. 5b, the "local" and "national" ETI frames are time stamped according to any of the embodiments of the invention described above, and when the timestamp of the "local" ETI frame and the timestamp of the "national" ETI frame are identical, or offset by a constant predetermined value, then the audio component of the "local" ETI frame is copied in place of the audio component of the "national" ETI frame , and more precisely in the "Capacity Units" of the "MSC" sub-frame, and so on for all "national" ETI frames.

FIG. 5c illustrates these two particular embodiments of the invention, with as input the "national" ETI frames and the "local" STI or ETI frames, which are time stamped according to an embodiment of the invention, by adding a time stamp field, the value of which is initialized from the FIG 0/10 field for the ETI frames, or from the DFCT counter for the STI frames. When the timestamps of the frames to be modified and the modification frames are identical, then the component to modify in "national" ETI frames is replaced by the component to insert "local" ETI frames or TSI frames.

 6.4 Example of a simplified structure of a time stamping device according to one embodiment of the invention

 FIG. 6 shows the simplified structure of a time stamping device, also called a "deterministic inserter", implementing the time stamping method according to the invention (for example according to the particular embodiment described above in connection with FIG. Figure 2a). This time stamping device comprises a RAM 60, a processing unit 61, equipped for example with a processor, and controlled by a computer program stored in a ROM 62. At initialization, the code instructions of the For example, a computer program is loaded into the RAM 60 before being executed by the processor of the processing unit 61. The processing unit 61 receives as input a frame of a data stream. The processor of the processing unit 61 processes the frame and outputs a time stamped frame comprising a timestamp field, according to the instructions of the program 62.

 This FIG. 6 only illustrates one particular way, among several possible, of carrying out the various algorithms detailed above, in relation to FIGS. 2a to 5c.

 This time stamping device may also comprise insertion means, in the form of, for example, an insertion device according to any one of the embodiments described above.

According to one embodiment, the invention is implemented by means of software and / or hardware components. A software component corresponds to one or more computer programs, one or more subroutines of a program, or more generally to any element of a program or software capable of implementing a function or a program. set of functions. Such a software component is executed by a data processor of a physical entity (terminal, server, gateway, set-top-box, router, etc.) and is capable of accessing the hardware resources of this physical entity (memories, supports recording, communication bus, input / output electronic boards, user interfaces, etc.). In the same way, a hardware component corresponds to any element of a hardware set (or hardware) able to implement a function or a set of functions. It may be a hardware component that is programmable or has an integrated processor for executing software, for example an integrated circuit, a smart card, a memory card, an electronic card for executing a firmware ( fimware), etc.

 6.5 Examples of applications

 An application of the invention is to insert a local service into a plate

SFN.

 Another application of the invention is to "pick up" a service over a period of time, for example to replace an advertising range of a national program with local advertisements.

 Another application of the invention is to insert "opportunistic" data in place of stuff packets present in the national stream.

Claims

 1. A method of time stamping a stream of data organized in successive frames, in a digital radio broadcasting network,

characterized in that it comprises, for at least one current frame of said data stream, a time-stamping step comprising the following substeps and delivering at least one time-stamped frame:

 determining at least one temporal information;

 adding, in said current frame, at least one timestamp field comprising at least said time information.

 2. Time stamping method according to claim 1, characterized in that said determining step comprises the following substeps:

 if said current frame is an "ETI" type frame:

 o if the "FIG 0/10" field is present:

^■ obtaining a temporal information, from said field "FIG 0/10";

^■ initializing said timestamp field of said current frame with said time information obtained;

 o if not, update said timestamp field of said current frame from said previously obtained time information for the previous frame said current frame, incremented by a predetermined value;

 if said current frame is an "STI" type frame:

 o if the "DFCTH" part of the "DFCT" counter is equal to 0:

^■ if the "DFCTL" part of the "DFCT" counter is equal to 2 ⁿ x480 ms, with n≥l: initialization of said timestamp field of said current frame with the value of the timestamp field added to the last frame of type " ETI "complete received;

o if not, updating said timestamp field of said current frame from the value of said timestamp field of the "STI" type frame preceding said current frame, incremented by a predetermined value.

3. Time stamping method according to claim 2, characterized in that said time information corresponds to the value of said field "FIG 0/10" converted into a multiple of the duration of a frame.

 4. A time stamping method according to claim 2, characterized in that said predetermined value is equal to the duration of a frame.

 The method of claim 1, characterized in that said data stream conforms to a digital radio broadcast standard belonging to the group comprising:

 the DAB standard;

 the DAB + standard;

 the DBM standard.

 6. Device for timestamping a stream of data organized in successive frames, in a digital radio broadcasting network,

characterized in that it comprises, for at least one current frame of said data stream, time stamping means comprising the following means and delivering at least one timestamped frame:

 means for determining at least one temporal information; means for adding, in said current frame, at least one timestamp field comprising at least said temporal information.

 A computer program product comprising program code instructions for implementing the time stamping method according to at least one of claims 1 to 5, when said program is executed on a computer.

 A computer-readable and non-transitory storage medium storing a computer program comprising computer executable instructions or a processor executable for implementing the time stamping method according to at least one of claims 1 to 5.

A method of inserting at least a portion of a secondary data stream into a main data stream, thereby providing a resultant data stream, each stream being organized into successive frames, characterized in that said insertion method comprises the following steps, for at least one frame of said main stream, said first frame, and at least one frame of said secondary stream, said second frame:

 a time stamping step according to the time stamping method according to any one of claims 1 to 5;

 a step of inserting said at least a portion of said secondary stream into said main stream, according to said first and second timestamped frames delivered by said timestamping step.

 10. An insertion method according to claim 9, characterized in that it comprises, prior to said step of time stamping, the following steps:

 detecting, in said main stream, at least one frame comprising a component to be replaced, called the frame to be modified;

 detecting, in said secondary flow, at least one frame comprising a component to be inserted, called the modification frame, and

in that said timestamp step is implemented for at least said frame to be modified and said modification frame, and delivers at least one timestamped frame to be modified and a timestamped frame of modification, and

in that said inserting step replaces, in said timestamped frame to be modified, a component to be replaced by a component to be inserted of said timestamped modification frame, if the time indicated by the timestamp field of said timestamped frame to be modified is equal to the time indicated by the timestamp field of said timestamped modification frame.

 11. Inserting method according to claim 10, characterized in that said at least one component to be inserted in said main stream corresponds to an audio-type component of said secondary stream.

12. The insertion method as claimed in claim 10, characterized in that said resulting stream is a stream to be broadcast by at least one transmitter of a SFN type broadcast network, in which each of said transmitters uses the same frequency of transmission. transmitting the data of said resulting stream.

13. Device for inserting at least a part of a secondary data stream into a main data stream, making it possible to obtain a resulting data stream, each stream being organized in successive frames,

characterized in that said insertion device comprises the following means, for at least one frame of said main stream, said first frame, and at least one frame of said secondary stream, said second frame:

 timestamping means comprising a timestamping device according to claim 6;

 means for inserting said at least part of said secondary stream into said main stream, according to said first and second time stamped frames delivered by said timestamping means.

 A computer program product comprising program code instructions for implementing the insertion method according to at least one of claims 9 to 12, when said program is executed on a computer.

 A computer-readable and non-transient storage medium storing a computer program comprising computer executable instructions or a processor executable for implementing the insertion method according to at least one of claims 9 to 12.