JP4314682B2 - Information signal transmission method, reception method, and reception apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information signal transmitting method, a receiving method, and a receiving apparatus for transmitting an additional information signal such as electronic program data using different transmission media such as CS digital broadcasting and BS digital broadcasting. More additional information signals can be transmitted in a shorter time without sacrificing the bandwidth.
[0002]
Specifically, the first and second information signals are transmitted through different transmission media, and a first additional information signal such as electronic program data related thereto is inserted into the first information signal, A second additional information signal such as detailed information related to the first additional information signal is inserted into the second information signal, and the second additional information signal is referred to the second additional information signal. By inserting this reference information, it is possible to refer to the second additional information signal transmitted via a different transmission medium based on this reference information.
[0003]
[Prior art]
In recent years, communication satellite CS (Communication Satellite) digital broadcasting has been put to practical use as digital television broadcasting. Also, BS (Broadcasting Satellite) digital broadcasting using a broadcasting satellite and terrestrial digital broadcasting are about to be put into practical use. Digital broadcasting enables high-quality, multi-channel video and audio services, as well as providing various services to viewers by transmitting additional data.
[0004]
A typical example is EPG (Electronic Program Guide). The EPG data provides information about the contents of program schedules and individual programs up to several days ahead. When this EPG data is used, a program guide can be displayed on the television screen, and operations such as channel selection and channel reservation can be performed directly on the program guide. About each program, it is also possible to display program introduction information such as a synopsis and performers.
[0005]
FIG. 6 shows an example of a program table created based on EPG data displayed on the display unit (display) of the receiving apparatus. In this example, the horizontal axis is the time axis, and the vertical axis is the channel number. That is, the program table is provided with a date column 71, a time display column 72, and a channel display column 73, respectively, and for example, a program table for one week can be displayed. By scrolling in the horizontal direction, the time and date of the displayed program guide can be changed, and the channel number can be changed by scrolling in the vertical direction.
[0006]
FIG. 7 shows an example of a method for transmitting EPG data. In this example, EPG data is divided into units called sections, and an arbitrary number of sections is set according to the information amount of EPG data. In the example of FIG. 7, one EPG data (for example, EPG data for one week) is configured in 100 sections.
[0007]
As shown in FIG. 8, one section includes a table ID, version number data, section number data, final section number data, actual data (actual program data), error correction code CRC, and the like. The data amount of one section is determined in advance. Data of one section configured as described above is packetized for each predetermined amount of data, and the packet is multiplexed with video data, audio data, or the like. The EPG data is repeatedly transmitted on the transport stream (TS stream).
[0008]
In the example of FIG. 7, when one unit (for example, one week) of EPG data from the data of section number 1 to the data of section 100 is transmitted, transmission is repeated from section number 1 again. The time required to transmit one set of EPG data varies depending on the data amount of the EPG data. For example, the time is several seconds at the shortest and several tens of minutes at the longest.
[0009]
On the receiving side, EPG data can be acquired by receiving a TS stream in which EPG data is multiplexed. However, at the start of reception, all data cannot be obtained unless a period in which at least one unit of EPG data is transmitted elapses, and therefore a single program table cannot be displayed.
[0010]
The EPG data transmission method described above can be roughly divided into two methods. The first method is shown in FIG. In satellite digital broadcasting, TS streams and transponders (satellite repeaters) have a one-to-one correspondence. In a normal TS stream, minimum EPG data is multiplexed together with video / audio / data related to a plurality of programs. This EPG data includes, for example, what is called PFElT (Present Following Event Information Table). PFElT includes information such as performers, synopses, age restrictions, viewing fees, etc. regarding the current program and the next program.
[0011]
Even if these EPG data are multiplexed, the transmission rate of the EPG data is set low so as not to overwhelm the video / audio / data band. However, since it is not necessary to switch TS streams in order to obtain EPG data, the program guide can be displayed while outputting video and audio. For example, a two-screen display can be performed in which the display screen of the program being received is the main screen and the program information based on PFElT data is the sub-screen.
[0012]
On the other hand, detailed EPG data (for example, EPG data for one week) has a large amount of data, and is not multiplexed with each TS stream, but is multiplexed with one TS stream (TS stream TS # N in FIG. 9). Turn into. If the transmission rate of EPG data is set high in order to send a large amount of data at high speed, all the EPG data can be acquired in a waiting time of, for example, several seconds on the receiving device side. The program guide shown in FIG. 6 is based on EPG data for one week.
[0013]
When it is desired to acquire detailed EPG data during reception of a normal TS stream (TS stream TS # 1, TS stream TS # 2,...), The TS stream being received is switched to TS stream TS # N. According to this method, EPG data can be acquired instantaneously during reception of any TS stream, and it is not necessary to store EPG data in a memory. This method is actually performed by CS digital broadcasting.
[0014]
A second method for transmitting EPG data is shown in FIG. In this method, unlike the first method, there is no special TS stream for transmitting EPG data at a high transmission rate, and EPG data having almost the same content is transmitted in all TS streams. In this case, the transmission rate of EPG data must be lowered in order not to compress the video / audio / data band of the program.
[0015]
As a result, it is not necessary to switch TS streams, but on the other hand, for example, it takes several minutes to several tens of minutes to acquire all EPG data corresponding to one week worth of programs. Therefore, in order to display a program guide immediately in response to a user request, it is necessary to prepare a memory in the receiving apparatus and store EPG data acquired over a long time in this memory. Therefore, the receiving device side needs a memory having a capacity capable of storing all EPG data. This method will be adopted in BS digital broadcasting in the near future.
[0016]
Considering that BS digital broadcasting is started, it is more convenient that the receiving device is an STB (set top box) that can receive both BS digital broadcasting and CS digital broadcasting.
[0017]
[Problems to be solved by the invention]
As described above, in BS digital broadcasting, transmitted EPG data includes data that can display a program guide for one week in addition to data that can display a program guide for several days. Yes. The detailed information for one week includes the genre of the program and the outline (contents) of the program, but the viewer may want to know other information depending on the case.
[0018]
For example, there are a lot of information that viewers want to acquire, such as facial photos of leading actors and actresses of movies, their profiles, outlines of works recently handled by movie directors, related information such as the broadcast date and time of series programs, and so on. When these pieces of information are inserted into the EPG data of BS digital broadcasting as a part of detailed information for one week, it is necessary to wait for a longer time than the above-mentioned time to obtain a set of program tables. However, this transmission method is nearly impossible. In order to fulfill the viewer's desire, it is necessary to transmit using another means.
[0019]
Therefore, the present invention solves such a conventional problem, and in addition to transmitting further additional information of such a program through another transmission medium, the transmission signal is transmitted with the transmitted signal. The present invention proposes a transmission method, a reception method, and a reception apparatus for an information signal that can acquire additional information in a shorter time by constructing a transmission system so as to link between them.
[0020]
[Means for Solving the Problems]
In order to solve the above-described problem, in the information signal transmission method according to the first aspect of the present invention, the first information signal and the first additional information signal related to the first information signal are the first information signal. of Broadcasting means A first step of transmitting via the second information signal, a second additional information signal associated with the first additional information signal, and a second additional information signal. Broadcasting means The first additional information signal includes reference information for referring to the second additional information signal, and in the second step, the second additional information signal is included in the first additional information signal. In part of the area of the second information signal in the specific data stream The second additional information signal To complete Multiplex the above second Broadcasting means Is transmitted through.
[0021]
In the receiving method according to the present invention described in claim 8, the first method Broadcasting means A first information signal transmitted via the first information signal, a first additional information signal related to the first information signal, and a second Broadcasting means A first step of receiving a second information signal transmitted via the second information signal and a second additional information signal related to the first additional information signal, and when receiving the first information signal, A second step of detecting reference information inserted in the first additional information signal and referring to the second additional information signal inserted in the second information signal. In step 1, To complete a part of the area of the second information signal in the specific data stream The multiplexed second additional information signal is converted into the second information signal. Broadcasting means Receive via.
[0022]
In the receiver according to the present invention as set forth in claim 15, Broadcasting means A first information signal transmitted via the first information signal, a first additional information signal related to the first information signal, and a second Broadcasting means And a second additional information signal related to the first additional information signal, the receiving apparatus receiving the first and second information signals. With To complete a part of the area of the second information signal in the specific data stream A receiving unit that receives the multiplexed second additional information signal, a received first and second information signal, a demultiplexing unit that separates the first and second additional information signals, and a separated first And a signal processing unit that processes the first and second additional information signals, and the first additional information signal includes a reference for referring to the second additional information signal, After receiving the additional information signal, the second additional information signal is received based on the reference information.
[0023]
When both transmission media are satellite waves, and the first transmission medium is a BS digital broadcast wave and the second transmission medium is a CS digital broadcast wave, the first information signal is a BS digital broadcast signal. The second information signal is a CS digital broadcast signal. When the additional information signal is EPG data, EPG data related to each broadcast program is multiplexed and transmitted on both the BS digital broadcast signal and the CS digital broadcast signal.
[0024]
In the embodiment of the present invention, second EPG data, which is further detailed information of EPG data (first EPG data) of the BS digital broadcast signal, is multiplexed on the CS digital broadcast signal. A link descriptor is inserted into the first EPG data multiplexed on the BS digital broadcast signal as information for referring to the second EPG data.
[0025]
Since the link descriptor is composed of a plurality of identification codes (ID) that specify which transmission medium, which transport stream, and which contents are to be referred to, in the above-described example, the CS digital A specific content multiplexed on a specific TS stream in the broadcast signal can be designated.
[0026]
Therefore, the second EPG data can be acquired simply by specifying automatically or manually to refer to this link descriptor. Since the second EPG data is not distributed and multiplexed in all the transport streams, but is multiplexed in a specific transport stream, the second EPG data is instantaneously acquired, and the acquired information Can be immediately displayed on the display unit as a part of the program guide. Further, it is not necessary to store all the second EPG data in the memory.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In the embodiments described below, the present invention is applied to a digital satellite broadcasting system.
[0028]
The outline of the present invention will be described first. In the present invention, additional information that cannot be multiplexed on one transmission medium is multiplexed and transmitted using another transmission medium that can secure a transmission band. As a suitable example, any of the transmission media is a satellite wave, and when the first transmission medium is selected as the BS digital broadcast wave, the transmission medium (second transmission medium) that can easily secure the transmission band is used. Can include CS digital broadcast waves. Therefore, the first information signal is a BS digital broadcast signal, and the second information signal is a CS digital broadcast signal. The additional information signal is program information related to each digital broadcast signal. In the following example, EPG data which is electronic program data will be described as an additional information signal.
[0029]
The EPG data is multiplexed and transmitted in the digital broadcast signal as information related to each broadcast program, both in the CS digital broadcast signal and in the BS digital broadcast signal scheduled to be broadcast in the future.
[0030]
In the present invention, second EPG data (data not overlapping with the first EPG data), which is further detailed information of EPG data (first EPG data) of the BS digital broadcast signal, is multiplexed on the CS digital broadcast signal. A link descriptor is inserted into the first EPG data multiplexed on the BS digital broadcast signal as information for referring to the second EPG data.
[0031]
The second EPG data can be acquired simply by specifying automatically or manually to refer to this link descriptor. The second EPG data is not distributed and multiplexed in all transport streams, but is multiplexed in a specific transport stream.
[0032]
As a result, since all of the second EPG data can be acquired simply by decoding the second EPG data in this specific transport stream, the second EPG data can be acquired instantaneously, and the acquired information can be used as a program. Can be displayed immediately on the display as part of the table. Since the second EPG data is not distributed multiplexing but is so-called concentrated multiplexing, a large-capacity memory for storing the second EPG data is not necessary.
[0033]
FIG. 1 shows a general configuration of a digital satellite broadcasting system. Two broadcast stations are used, such as a BS broadcast station 10BS that handles BS digital broadcast signals and a CS broadcast station 10CS that handles CS digital broadcast signals. Since both broadcasting stations 10BS and 10CS have substantially the same configuration, the schematic configuration of the BS broadcasting station 10BS will be described.
[0034]
In this BS broadcast station 10BS, an encoder 1 that encodes video data V and audio data A constituting a broadcast program by an encoding method such as MPEG2 (Moving Picture Experts Group Phase 2). ₁₁ ~ 1 _{n1 '} ..., 1 _m1 ~ 1 _mn Have The output of n encoders is the multiplexing unit 2 ₁ ~ 2 _m Are multiplexed respectively. Multiplexer 2 ₁ ~ 2 _m For EPG generation and transmission device 3 ₁ ~ 3 _m EPG data is supplied, and the EPG data is multiplexed with the video / audio data. FIG. 2B shows an example of multiplexing EPG data (BS-EPG data) with respect to the TS stream.
[0035]
In the MPEG2 system, each data is divided into packets having a length of 188 bytes, and the packets are time-division multiplexed. Multiplexer 2 ₁ Is output as a transport stream (TS stream). In FIG. 1, m TS streams TS ₁ ~ TS _m Is generated. These TS streams TS ₁ ~ TS _m Are modulators 4 respectively. ₁ ~ 4 _m It is modulated by. And m transport streams TS equal to the number of transponders (satellite repeaters) ₁ ~ TS _m Are simultaneously uplinked to the broadcasting satellite (BS) 6B.
[0036]
The same processing is performed in the other CS broadcast station 10CS, and a plurality of TS streams are uplinked to the communication satellite (CS) 6C. Therefore, the CS broadcasting station 10CS is also provided with a plurality of data processing systems for generating a plurality of TS streams, but only one system is illustrated in the figure.
[0037]
Even in this data processing system, an encoder 15 that encodes video data V and audio data A constituting a broadcast program using an MPEG2 encoding method. ₁₁ ~ 15 _nh Have h encoders 15 ₁₁ ~ 15 _nh Is the multiplexing unit 16. ₁ Is multiplexed. Multiplexer 16 ₁ EPG generation and transmission device 18 ₁ EPG data from is supplied. As shown in FIG. 2A, the EPG data is EPG data (CS-EPG data) related to a CS digital broadcast signal program.
[0038]
In addition to this, an EPG generation and transmission device 19 for BS ₁ The second EPG data (BS additional EPG data) related to the EPG data multiplexed on the BS digital broadcast signal is multiplexed by the multiplexing unit 16. ₁ Thus, it is multiplexed with the image / audio data of a specific TS stream. In the case of FIGS. 2A and 2B, a part of an area such as video in the second TS stream TS # 2 is a multiplexed area, and the second EPG data is multiplexed here. The second EPG data is inserted so as to be completed with the data multiplexed in the TS stream TS # 2. In other words, it is not distributed and multiplexed over a plurality of TS streams, but so-called concentrated multiplexing to a single TS stream.
[0039]
The second EPG data is information that cannot be displayed in the program table expressed by the BS-EPG data, which is the first EPG data. (Or still images), their profiles, recent works by the director, commentary on Academy Awards, and other details related to the broadcast program. Of course, since the first EPG data includes information such as the title, genre, and program content of the program, detailed information that does not overlap with the information is used as the second EPG data. The additional information may be a commercial video on the program providing side, and the content is not limited.
[0040]
Multiplexer 16 ₁ Multiple TS streams TS generated in ₁ ~ TS _m Are modulators 17 respectively. ₁ And then uplinked to the communication satellite 6C.
[0041]
Signals from the satellites 6B and 6C are received by a common receiving antenna 31, and are processed by a receiver (STB) 32 in the receiving apparatus. In the receiver 32, the tuner 33 receives a BS digital broadcast signal or a CS digital broadcast signal, which is any network, and further selects a desired TS stream. Thereafter, the TS stream is supplied to the demodulator 34. The output of the demodulator 34 is supplied to the separation unit 35.
[0042]
Here, QPSK (Quadrature Phase Shift Keying) modulation is used as a modulation method of CS digital broadcasting. As a BS digital broadcast modulation scheme, 8PSK modulation will be adopted. Among these modulation schemes, the demodulator 34 can have a common configuration in a considerable part.
[0043]
The separation unit 35 refers to a packet ID (PID) included in each packet and separates a desired packet. The video / audio data from the demultiplexing unit 35 is supplied to the decoder 36, and the decoder 36 releases the compression. Video data and audio data are output from the decoder 36 to the display unit and audio output unit (both not shown).
[0044]
On the other hand, the EPG data separated by the separation unit 35 is supplied to the EPG data processing unit 37. The EPG data processing unit 37 generates EPG display data based on the received EPG data.
[0045]
Among the EPG data, BS-EPG data for BS digital broadcasting signals is once supplied to the storage unit 38, and a series of EPG data for displaying a program table for one week including the current day is stored. Thereafter, in this example, the image is supplied to the display unit via the video superimposing unit 39. Therefore, an electronic program guide as shown in FIG. 6 is displayed as a sub-screen on the screen of the display unit.
[0046]
On the other hand, in the case of CS digital broadcast signal, that is, CS-EPG data, the video superimposing unit 39 superimposes the video data on the video data without passing through the EPG data storage unit 38 and then supplies the video data to the display unit. . When displaying the CS-EPG data, since the BS digital broadcast signal is switched to the CS digital broadcast signal, the BS video is not displayed.
[0047]
Normally, the receiver 32 is provided with a descrambler for unscrambling, and a pay viewing system such as pay-per-view is configured.
[0048]
By the way, information (reference information) for referring to the second EPG data multiplexed in the CS digital broadcast signal is inserted into the EPG data multiplexed in the BS digital broadcast signal.
[0049]
The formats for transmitting EPG data include DVB-SI adopted in Europe, DM-SI and JET adopted in CS broadcasting, and ARIB STD-B10 which is going to be adopted in BS digital broadcasting. The transmission format can also be applied. Depending on the transmission format, the type and content of the EPG data to be transmitted are slightly different, but a link descriptor is newly added as reference information for referring to the first EPG data in any transmission format. The format contents can be expanded by adding this link descriptor.
[0050]
FIG. 3 shows an example. A link descriptor is added to the EPG data table as shown in FIG. 3A. This link descriptor can be described in either an SDT (Service Description Table) or an EIT (Event Information Table), for example, an EIT table.
[0051]
The link descriptor is composed of a plurality of identification codes (ID) that specify which content of which transport medium of which transmission medium is to be referred to. Therefore, the link descriptor includes an information network identification code (ID), a transport stream ID, and a content ID in addition to the descriptor tag as shown in FIG. 3B.
[0052]
Here, the descriptor tag specifies a link descriptor. The network ID is for identifying an information network, and in the above-described example, is an ID for specifying a CS satellite broadcast. The transport stream ID is an ID for specifying the transport stream in which the second EPG data as additional information flows. In the example of FIG. 2, TS stream TS # 2 is designated. The content ID is an ID that identifies which data of the added EPG data is to be acquired.
[0053]
By describing such a link descriptor in the BS-EPG data, the second EPG data multiplexed in the CS digital broadcast signal can be referred to from the EPG data of the BS digital broadcast signal.
[0054]
Instead of representing link information by a link descriptor, it is also possible to create an EPG table representing link information.
[0055]
FIG. 4A shows an example of a program table created based on EPG data multiplexed in a BS digital broadcast signal. FIG. 4A shows an example in which program information of a foreign movie is displayed on the screen 40, in which the names of two leading actors are displayed as a performer list in addition to the program name and the start and end times of the program. Yes. In the present invention, in order to be able to link to detailed information, for example, an area where the linked information can be selected is provided in the vicinity of the actor display column, for example, buttons 42 and 44 written as details are displayed here. .
[0056]
When the viewer clicks any button 42 or 44 using a cursor or the like, the corresponding link descriptor is designated, and the receiver 32 receives the TS in the currently received BS digital broadcast signal. The reception state is switched from the stream to the CS digital broadcast signal which is another network. Next, second EPG data multiplexed on the designated TS stream (TS stream ST # 2 in FIG. 2) is acquired. When display data is created from the acquired EPG data and displayed on the screen 40, detailed information (a face photo 46 and a profile 48 in the figure) as shown in FIG.
[0057]
The detailed information can also be configured to be acquired automatically. In this case, the display of the click buttons 42 and 44 as shown in FIG. 4A becomes unnecessary.
[0058]
How the second EPG data is actually acquired will be described with reference to the flowchart for displaying detailed information shown in FIG.
[0059]
In FIG. 5, when a detailed information display request is made, the network ID in the corresponding link descriptor is switched to the network (in the example, the CS digital broadcasting system) (steps 51 and 52). Thereafter, the transport stream is selected from the transport stream ID in the link descriptor (step 53). Next, the target EPG data is acquired with reference to the content ID in the link descriptor, and is displayed as display data on the screen 40 (steps 54 and 55).
[0060]
To return to the original program guide, simply click on the icon or menu item on the toolbar displayed on the screen 40. By doing so, the original network (BS digital broadcasting system) is selected again and the original program is selected. And a program guide is displayed on the screen 40.
[0061]
As described above, according to the embodiment of the present invention, the BS digital broadcast signal and the related EPG data are transmitted via the BS satellite wave, and the CS digital broadcast signal and the second EPG data related to the BS digital broadcast signal are transmitted to the CS. It is intended to be transmitted via satellite waves. By doing so, more additional information (second EPG data) related to the broadcast program can be transmitted without sacrificing the band of the BS digital broadcast signal.
[0062]
Also, by describing a link descriptor for referring to the second EPG data in the EPG data inserted in the BS digital broadcast signal, the BS digital broadcast signal and the CS digital broadcast signal are received on the receiving apparatus side. It is possible to easily obtain the second EPG data from this link descriptor.
[0063]
Then, by transmitting using one TS stream in the CS digital broadcast signal, the second EPG data can be acquired and displayed instantaneously. Of course, memory means having a capacity capable of storing all of the second EPG data is also unnecessary.
[0064]
In the above-described embodiment, the shared receiver is exemplified, but an STB configuration that can receive the BS digital broadcasting system and the CS digital broadcasting system independently can also be used.
[0065]
In the embodiment described above, the present invention is applied to the case where BS digital broadcasting and CS digital broadcasting are received. In addition to these, the present invention can also be applied to a case where a plurality of transmission media having different EPG transmission methods such as terrestrial digital broadcasting and digital CATV are received by one tuner. The information to be distributed is not limited to video / audio data, but may be only audio or data such as program data. Further, the EPG data is not limited to a program configuration having two axes of time and channel, and various screen configurations can be adopted. In other words, it may be anything that shows the schedule of data to be distributed.
[0066]
【The invention's effect】
As described above, in the information signal transmission method, reception method, and reception apparatus according to the present invention, additional information that cannot be multiplexed on one transmission medium is linked to another transmission medium that can secure a transmission band. However, this transmission medium is used for multiplex transmission, each of which is received and the additional information can be displayed on the screen.
[0067]
According to this, a large amount of additional information can be transmitted without limiting the transmission band of one of the transmission media, and this additional information can also be acquired instantaneously, so that the additional information can be displayed immediately. In addition, even when a large amount of additional information is transmitted, since it is multiplexed into a part of one transport stream, it is not necessary to provide a large-capacity memory corresponding to the amount of additional information, and the cost can be reduced by reducing the number of electronic components. It has features such as
[Brief description of the drawings]
FIG. 1 is a block diagram showing a general configuration of a satellite digital broadcasting system to which the present invention can be applied.
FIG. 2 is an explanatory diagram showing an example of a transmission form of an additional information signal.
FIG. 3 is a format showing an example of reference information inserted in an additional information signal.
FIG. 4 is a diagram showing a display example of a program guide and detailed information related thereto.
FIG. 5 is a flowchart showing an example of processing of EPG data including a link descriptor.
FIG. 6 is a schematic diagram for explaining an example of a conventional EPG.
FIG. 7 is a schematic diagram illustrating a configuration example of EPG data.
FIG. 8 is a schematic diagram illustrating a configuration example of EPG data in more detail.
FIG. 9 is a schematic diagram illustrating an example of a conventional EPG data transmission method.
FIG. 10 is a schematic diagram illustrating another example of a conventional EPG data transmission method.
[Explanation of symbols]
3, 8... EPG data generation and transmission device, 6B, 6C... Satellite, 10BS... BS digital broadcast station, 10CS... CS digital broadcast station, 19. 32 ... Receiver, 33 ... BS / CS shared tuner, 37 ... EPG data processing unit, 38 ... EPG data storage unit

Claims (21)

A first step of transmitting a first information signal and a first additional information signal related to the first information signal via a first broadcasting means ;
A second step of transmitting the second information signal and the second additional information signal related to the first additional information signal via the second broadcasting means ;
The first additional information signal includes reference information for referring to the second additional information signal,
In the second step,
An information signal transmission method for multiplexing and transmitting the second additional information signal to a part of an area of the second information signal in a specific data stream through the second broadcasting means . 2. The information signal transmission method according to claim 1, wherein the first and second broadcasting means are information networks that handle satellite waves, ground waves, and the like.  The first information signal is a BS digital signal using a broadcasting satellite, and the second information signal is a CS digital signal using a communication satellite. These information signals are video signals, audio signals, and data signals. The information signal transmission method according to claim 1, which is any one of the methods.  2. The information signal transmission method according to claim 1, wherein the first additional information signal is electronic program data related to the first information signal.  5. The information signal transmission method according to claim 4, wherein the second additional information signal is detailed information with respect to the first additional information.  2. The information signal transmission method according to claim 1, wherein the reference information is a link descriptor for linking to the second additional information signal.  7. The information signal transmission method according to claim 6, wherein the link descriptor is a description code tag, a network identification code for linking to the information network, and an identification code for designating a transport stream of the information network. . A first information signal transmitted via the first broadcasting means , a first additional information signal related to the first information signal, and a second information signal transmitted via the second broadcasting means And a first step of receiving a second additional information signal associated with the first additional information signal;
When receiving the first information signal, the reference information inserted in the first additional information signal is detected, and the second additional information signal inserted in the second information signal is referred to. And a second step to
In the first step,
A method for receiving an information signal, wherein the second additional information signal multiplexed so as to be completed in a part of the area of the second information signal in a specific data stream is received via the second broadcasting means . 9. The information signal receiving method according to claim 8, wherein the first and second broadcasting means are information networks that handle satellite waves, ground waves, and the like.  The first information signal is a BS digital signal using a broadcasting satellite, and the second information signal is a CS digital signal using a communication satellite. These information signals are video signals, audio signals, and data signals. 9. The information signal receiving method according to claim 8, which is any one of the methods.  9. The information signal receiving method according to claim 8, wherein the first additional information signal is electronic program data related to the first information signal.  9. The information signal receiving method according to claim 8, wherein the second additional information signal is detailed information with respect to the first additional information.  9. The information signal receiving method according to claim 8, wherein the reference information is a link descriptor for linking to the second additional information signal.  14. The information signal receiving method according to claim 13, wherein the link descriptor is a description code tag, a network identification code for linking to the information network, or an identification code for designating a transport stream of the information network. . A first information signal transmitted via the first broadcasting means , a first additional information signal related to the first information signal, and a second information signal transmitted via the second broadcasting means And a second additional information signal related to the first additional information signal, the receiving apparatus receiving the first and second information signals and the second information in a specific data stream A receiving unit for receiving the second additional information signal multiplexed so as to be completed in a part of the signal area ; the received first and second information signals; and the first and second additional information signals And a signal processing unit for processing the separated first and second additional information signals, and the second additional information signal is referred to in the first additional information signal. It contains reference information for, the first force of the After receiving the information signal, the receiver of the information signal for receiving the second additional information signal on the basis of the reference information. 16. The information signal receiving apparatus according to claim 15, wherein the first and second broadcasting means are information networks that handle satellite waves, ground waves, and the like.  The first information signal is a BS digital signal using a broadcasting satellite, and the second information signal is a CS digital signal using a communication satellite. These information signals are video signals, audio signals, and data signals. The information signal receiving apparatus according to claim 15, wherein the information signal receiving apparatus is any one.  16. The information signal receiving apparatus according to claim 15, wherein the first additional information signal is electronic program data related to the first information signal.  16. The information signal receiving apparatus according to claim 15, wherein the second additional information signal is detailed information with respect to the first additional information.  16. The information signal receiving apparatus according to claim 15, wherein the reference information is a link descriptor for linking to the second additional information signal.  21. The information signal receiver according to claim 20, wherein the link descriptor is a description code tag, a network identification code for linking to the information network, or an identification code for designating a transport stream of the information network. .

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