JP3876511B2 - Customer management system and management method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a customer management system and management method suitable for use in digital satellite broadcasting.
[0002]
[Prior art]
In digital satellite broadcasting, digital video signals and audio signals are compressed and broadcast by, for example, MPEG (Moving Picture Experts Group) 2 system, and it is possible to transmit high-quality signals compared to existing analog broadcasting. In addition, the frequency utilization efficiency is improved and the number of channels can be increased. In digital satellite broadcasting, it is possible to provide services such as data broadcasting as well as video and audio.
[0003]
At present, several digital satellite broadcasting satellites have already been launched, and digital satellite broadcasting services have been started. In such digital satellite broadcasting, channels for broadcasting contents such as sports, movies, music and news are prepared, and several hundred channels are secured as the number of channels of one satellite.
[0004]
Furthermore, some digital satellite broadcasting satellites will be launched in the future, and some digital satellite broadcasting services are about to start. In these digital satellite broadcasting services, it is considered to prepare channels for providing various interesting programs.
[0005]
When receiving digital satellite broadcasting, a dedicated IRD (Integrated Receiver / Decoder) for decoding video signals and audio signals is required. When several digital satellite broadcasting services appear, it is considered that the number of viewers who want to subscribe to a plurality of digital satellite broadcasting services and enjoy digital satellite broadcasting will increase. However, it is inconvenient to purchase a new IRD to subscribe to a different digital satellite broadcasting service. Therefore, it is desired that IRD can be used in common for each digital satellite broadcasting service.
[0006]
[Problems to be solved by the invention]
However, if an IRD that can be commonly used in a plurality of digital satellite broadcasting services is configured, reception contract information may not be reliably received.
[0007]
That is, when receiving a digital satellite broadcast, an IC card is attached to the IRD. In this IC card, a card ID and contractor information (EMM) are stored. When receiving a contract with a satellite operating company that manages satellite broadcasting, this reception contract information is transmitted as an EMM packet from the site of the satellite operating company and sent via the satellite managed by the satellite operating company. Come. On the receiving side, the ID of the sent EMM packet is compared with the ID of the mounted IC card, and if it is an EMM packet addressed to itself, it is captured. Therefore, after signing a digital satellite broadcast reception contract, the viewer needs to receive a signal from the satellite of the satellite operator of the digital satellite broadcast and receive an EMM packet addressed to the viewer.
[0008]
In the case of receiving one satellite, since the viewer always receives radio waves from the satellite, the viewer can reliably receive the EMM packet transmitted from the site of the satellite operating company. However, if IRD can be used in common for a plurality of digital satellite broadcasting services, when a viewer signs a reception contract with one satellite operator, the viewer can use a satellite from another satellite operator. However, the EMM packet sent from the site of the satellite operating company cannot be received even though the reception contract is made. Therefore, even though the reception contract is made, the reception contract information is not stored in the IC card, and there is a possibility that the viewer may be disadvantaged such that the broadcast of the contracted channel cannot be received, which may be a big problem.
[0009]
Accordingly, an object of the present invention is to provide a customer management system and a management method capable of reliably receiving reception contract information when an IRD is commonly used in a plurality of digital satellite broadcasting services.
[0010]
[Means for Solving the Problems]
According to a first aspect of the present invention, a first decoder that performs multi-channel broadcasting using a first satellite and a second broadcast that performs multi-channel broadcasting using a second satellite are received by a common decoder. In the multi-channel broadcasting customer management system, the first broadcasting site outputs the reception contract information of the first broadcasting customer. First 1 customer management means, first reception contract information packet generating means for generating a first broadcast reception contract information packet from reception contract information of a first broadcast customer, and a first broadcast reception contract information packet Is transmitted to the second broadcast site, the first broadcast reception contract information packet generated by the first reception contract information packet generation unit, and the second broadcast site transmitted from the second broadcast site. First mixing means for mixing the broadcast reception contract information packets of the first broadcast, the mixed first broadcast reception contract information packets and the second broadcast reception contract information packets into the packet stream, And a second broadcasting site for outputting the reception contract information of the second broadcasting customer. First 2 customer management means, second reception contract information packet generation means for generating a second broadcast reception contract information packet from the second broadcast customer reception contract information, and a second broadcast reception contract information packet Is transmitted to the first broadcast site, the second broadcast reception contract information packet generated by the second reception contract information packet generation unit, and the first broadcast site transmitted from the first broadcast site. A second mixing means for mixing the broadcast reception contract information packet of the second broadcast, and the mixed second broadcast reception contract information packet and the first broadcast reception contract information packet are incorporated into the packet stream; A customer management system for multi-channel broadcasting, characterized in that a second transmission means for transmitting via a satellite can be provided.
[0012]
Claim 6 In this invention, a first decoder that performs multi-channel broadcasting using a first satellite and a second broadcast that performs multi-channel broadcasting using a second satellite are received by a common decoder. In the channel broadcast customer management method, the first broadcast site outputs the reception contract information of the first broadcast customer, and receives the first broadcast reception contract information packet from the reception contract information of the first broadcast customer. And the first broadcast reception contract information packet is transmitted to the second broadcast site, and the generated first broadcast reception contract information packet and the second broadcast site transmitted from the second broadcast site are transmitted. 2 broadcast reception contract information packets are mixed, and the mixed first broadcast reception contract information packet and the second broadcast reception contract information packet are incorporated into a packet stream and sent via the first satellite. First send, The second broadcast site outputs the reception contract information of the second broadcast customer, generates a second broadcast reception contract information packet from the reception contract information of the second broadcast customer, The reception contract information packet is transmitted to the first broadcast site, the generated second broadcast reception contract information packet, and the first broadcast reception contract information packet transmitted from the first broadcast site, and , And the mixed second broadcast reception contract information packet and the first broadcast reception contract information packet are incorporated into the packet stream and transmitted via the second satellite. It is a customer management method for channel broadcasting.
[0014]
An EMM packet from the first satellite operating company and an EMM packet from the second satellite operating company are exchanged between the site of the first satellite operating company and the site of the second satellite operating company. Therefore, the viewer can reliably receive the reception contract information sent from the first satellite operating company or the second satellite operating company, regardless of which satellite operating company receives the broadcast. it can.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows an outline of an example of a satellite broadcasting system to which the present invention can be applied.
[0016]
In FIG. 1, 1 is a site of a first satellite operating company. The site 1 of the first satellite operating company performs multi-channel digital satellite broadcasting. 2 is a site of a second satellite operating company. The second satellite-operated site 2 performs multi-channel digital satellite broadcasting independently of the first satellite operator.
[0017]
The first satellite operating company 1 and the second satellite operating company 2 have the same basic system such as the compression system and transmission format of digital video signals and digital audio signals.
[0018]
That is, the first satellite operating company and the second satellite operating company perform editing processing of the broadcast video material, compress the video signal and audio signal obtained from the broadcast video material by the MPEG2 system, and perform QPSK (Quadrature Phase Shift Keying) Modulates and transmits a signal to the satellite with a predetermined carrier wave. The MPEG2 system compresses a video signal using DCT (Discrete Cosine Transform) and a variable length code.
[0019]
A transmission signal from the site 1 of the first satellite operating company is sent to the receiving facility 5 of each home via the satellite 3 managed by the first satellite operating company. A transmission signal from the site 2 of the second satellite operating company is sent to the receiving facility 5 of each home via the satellite 4 managed by the second satellite operating company. The satellite 3 managed by the first satellite operating company and the satellite 4 managed by the second satellite operating company are stationary at close positions on the geostationary orbit.
[0020]
The receiving equipment 5 in each home includes a parabolic antenna 6 that receives signals from the satellites 3 and 4, an IRD 7 that demodulates the received signals and decodes a video signal and an audio signal, and a video signal and a video signal from the IRD 7. A supplied television receiver 8 is provided.
[0021]
The satellite 3 managed by the first satellite operating company and the satellite 4 managed by the second satellite operating company are stationary at close positions on the geostationary orbit. In the first satellite operator site 1 and the second satellite operator site 2, the basic methods such as the compression method and transmission format of digital video signals and digital audio signals are processed in the same manner. Has been done. Therefore, the signal from the satellite 3 managed by the first satellite operating company and the signal from the satellite 4 managed by the second satellite operating company are received using the common parabolic antenna 6, It can be decoded using the common IRD 7 and displayed on the television receiver 8.
[0022]
An IC card 9 is attached to the IRD 7. The IC card 9 is recorded with a card ID and encrypted reception contract information.
[0023]
In the system to which the present invention is applied, EMM packets are exchanged between the first satellite operating company and the second satellite operating company so that the reception contract information can be reliably received. As a result, not only the EMM packet PEMM1 of the first satellite operating company but also the EMM packet PEMM2 of the second satellite operating company is sent from the site 1 of the first satellite operating company. Also, from the site 2 of the second satellite operating company, not only the EMM packet PEMM2 of the second satellite operating company but also the EMM packet PEMM1 of the first satellite operating company is sent.
[0024]
That is, FIG. 2A shows a case where the IC card 9A issued by the first satellite operating company is attached to the IRD 7. In this case, when the viewer receives a broadcast from the satellite 3 of the first satellite operating company, the EMM packet PEMM1 of the first satellite operating company sent from the site 1 of the first satellite operating company is received. It is received by the IRD 7 via the satellite 3, and this contractor information is recorded on the IC card 9A. When the viewer receives a broadcast from the satellite 4 of the second satellite operating company, the EMM packet PEMM1 of the first satellite operating company sent from the site 2 of the second satellite operating company The contractor information is recorded on the IC card 9A.
[0025]
FIG. 2B shows a case where the IC card 9B issued by the second satellite operating company is attached to the IRD 7. In this case, when the broadcast from the satellite 4 of the second satellite operating company is received, the EMM packet PEMM2 of the second satellite operating company sent from the site 2 of the second satellite operating company is the satellite. 4 is received by the IRD 7 and this contractor information is recorded on the IC card 9B. When the satellite broadcast from the satellite 3 of the first satellite operating company is received, the EMM packet PEMM2 of the second satellite operating company sent from the site 3 of the first satellite operating company is transmitted via the satellite 3. The contractor information is received by the IRD 7 and recorded on the IC card 9B.
[0026]
FIG. 3 shows an outline of a broadcasting apparatus for performing multi-channel digital broadcasting at the site 1 and the site 2 of the system described above. This multi-channel digital broadcasting apparatus is basically used by the first satellite operating company and the second satellite operating company.
[0027]
This digital broadcasting apparatus includes a broadcast program organization system (BPDS) 21, a baseband system (BASEBAND) 22, a central processing system 23, a customer management system (SMS) 24, a customer viewing permission system (SAS) 25, An IF system 26 and a shared system 27 are included.
[0028]
The broadcast program organization system (BPDS) 21 performs registration and management of broadcast video material and organization of video programs. The broadcast program organization system (BPDS) 21 includes M systems from # 1 to #M.
[0029]
Base base system (BASEBAND) 22 receives video material input on the line, sends video material by cart or server, switches material by master switcher, etc., and baseband control system (BCS) 31; A router control system (RCC) 32 is included.
[0030]
The central processing unit 23 includes a network management database (NMD) 33, a program guide system (PGS) 34, an encoder control system (ECS) 35, a multiplexer control system (MCS) 36, and an EPG (electronic program guide) flow control. (EPG-FC) 37, encoder (ENC) 38, multiplexer (MUX) 39, and download server (DLS) 40.
[0031]
The network management database (NMD) 33 inputs the settings of the broadcasting system, all the information input by the broadcasting program organization system (BDPS) 21, information on the schedule, CA information that only a specific viewer can see, and Distributes configuration information, which is common system information.
[0032]
The program guide system (PGS) 34 generates EPG transmission data and a schedule control file of a service transmitted by one transponder.
[0033]
A multiplexer (MUX) 39 serially receives one-dimensionally multiplexed video and audio packets and generates internal packets. Further, an EMC packet for each program is generated. These video and audio packets and all control packets necessary for broadcast system control are multiplexed and output as a single stream.
[0034]
A customer management system (SMS) 24 performs customer management such as customer registration and charge listening for pay broadcasting. The customer management system (SMS) 24 manages which channel is contracted for each customer, and sends reception contract information (EMM) based on this contract. The customer management system (SMS) 24 performs charge management for pay broadcasting.
[0035]
The customer viewing permission system (SAS) 25 receives the reception contract information (EMM) from the customer management system (SMS) 24, encrypts the reception contract information with an encryption algorithm, and transmits an EMM packet.
[0036]
The IF system 26 includes a QPSK modulation (QPSK) unit 41 and an IF switcher (IFSW) 42. The packet to be transmitted is sent to the IF system 26, QPSK modulated by the IF system unit 26, and converted to a predetermined carrier frequency. The output of the IF system unit 26 is supplied to an output amplifier 27 for power amplification. This signal is output from the parabolic antenna 28 and transmitted toward the satellite 3 or the satellite 4.
[0037]
The shared system 27 includes an alarm and monitor system (AMS) 43 for detecting and displaying system alarms, and a network 44 for performing the backbone of the system.
[0038]
FIG. 4 shows the configuration of the IRD 7 in each home. In FIG. 4, the signal from the satellite 3 or 4 is received by the parabolic antenna 6. An LNB (Low Noise Block Downconverter) 51 is attached to the parabolic antenna 6. The received signal is down-converted by the LNB 51.
[0039]
The output of the LNB 51 is supplied to the front end unit 52. The front end unit 52 includes a carrier selection unit 53, a QPSK demodulation unit 54, and an FEC decoder unit 54.
[0040]
The carrier selection unit 53 is supplied with a frequency setting signal from the host processor 50. This frequency setting signal is generated based on the channel setting signal from the viewer given to the input unit 70. Based on the frequency setting signal from the host processor 50, the carrier selection unit 53 of the front end unit 52 is controlled to select a signal having a predetermined reception frequency.
[0041]
The output of the carrier selector 53 is supplied to the QPSK demodulator 54. The QPSK demodulator 54 performs QPSK demodulation on the received signal selected by the carrier selector 53.
[0042]
The output of the QPSK demodulator 54 is supplied to the FEC decoder 55. The FEC decoder 55 performs error correction processing and the like. The output of the FEC decoder unit 55 is sent to the transport unit 57.
[0043]
The transport unit 57 includes a descrambler 58 and a demultiplexer 59. The descrambler 58 releases the scramble when the received program is scrambled. The demultiplexer 59 sorts video packets, audio packets, EPG packets, and the like from the packet stream.
[0044]
The host processor 50 reads information stored in the IC card 9 when the program of the service (channel) instructed to be received by the viewer is scrambled, and the desk of the transport unit 57 corresponds to the information. Controls the Rambler 58. That is, when access is permitted, the descrambler 58 descrambles the scrambled packet from the FEC decoder 55 and outputs it to the demultiplexer 59. If access is not permitted, the host processor 50 does not cause the descrambler 58 to execute the diff-cramble process. As a result, the viewer can substantially not view the program for which he / she has not subscribed.
[0045]
The demultiplexer 59 separates the video packet, the audio packet, and the EPG packet. The video packet is sent to the video decoder 60, the audio packet is sent to the audio decoder 61, and the EPG packet is sent to the EPG processor 62.
[0046]
The video decoder 60 decodes the input video data by the MPEG2 system, and forms a component video signal composed of the luminance signal Y and the color difference signals (RY) and (BY). This component video signal is supplied to the NTSC encoder 64. The NTSC encoder 64 converts the component video signal composed of the luminance signal Y and the color difference signals (R−Y) and (B−Y) into an NTSC composite video signal. This NTSC video signal is output from the output terminal 66.
[0047]
The audio decoder 61 decodes the input audio data by the MPEG2 system, and forms a PCM audio signal. This PCM audio signal is supplied to the D / A converter 65. The D / A converter 65 converts the PCM audio signal into an analog audio signal. This analog audio signal is output from the output terminal 67.
[0048]
In response to a command from the host processor 50, the EPG processor 62 supplies EPG data to the host processor 50, generates data for on-screen display, and outputs the data to the NTSC encoder 64. As a result, the electronic program is displayed on the screen.
[0049]
The output of the host processor 50 is supplied to the display unit 69. Various displays are performed on the display unit 69. A modem 68 is connected to the host processor 50. The viewing history of PPV (Pay Per View) is stored in the IC card 9 and sent to the customer management system (SMS) of each satellite operating company via the modem 66 every predetermined period.
[0050]
By the way, in the satellite broadcast receiving system to which the present invention can be applied as described above, a digital satellite broadcast signal is sent from the satellite 3 of the first satellite operating company and the satellite 4 of the second satellite operating company. It is possible to receive signals from either satellite. Because of this configuration, a reception contract is signed with one satellite operator, and when the reception contract information is sent from the site of one satellite operator, the satellite signal of the other satellite operator is received. If it is, the receiving contract information cannot be received.
[0051]
Therefore, in the system to which the present invention is applied, the EMM packet is exchanged between the first satellite operating company and the second satellite operating company. As a result, the reception contract information can be reliably received regardless of which satellite operating company's broadcast is received.
[0052]
Hereinafter, the exchange of EMM packets performed between the first satellite operating company and the second satellite operating company will be described in detail.
[0053]
In FIG. 5, the first satellite operating company has three sites 100A, 100B, and 100C having different installation locations. These sites 100A to 100C correspond to the site 1 in FIG. There is a customer management system (SMS) 124 at site 100A. This customer management system (SMS) 124 corresponds to the customer management system (SMS) 24 in FIG.
[0054]
Reception contract information EMM1 of the first satellite operating company is issued from the customer management system (SMS) 124 of the first satellite operating company. The reception contractor information EMM1 of the first satellite operating company is sent to the EMM process unit (EPU) 151.
[0055]
The EMM process unit (EPU) 151 encrypts the contractor information EMM1 of the first satellite operating company to form the EMM packet PEMM1 of the first satellite operating company. The EMM process unit (EPU) 151 is included in the customer viewing system (SAS) 25 in FIG. The EMM packet PEMM1 of the first satellite operating company from this EMM process unit (EPU) 151 is sent to the repeaters 152A, 152B, 152C, 152D.
[0056]
Repeaters 152A and 152B are at site 100A, repeater 152C is at site 100B, and repeater 152D is at site 100C. These repeaters 152A to 152D repeatedly transmit the EMM packet PEMM1 of the first satellite operating company a plurality of times as necessary, and are included in the customer viewing system (SAS) 25 in FIG.
[0057]
The outputs of repeaters 152A and 152B at site 100A are supplied to EMM mixers 153A and 153B at site 100A, respectively. The output of repeater 152C at site 100B is supplied to EMM mixer 153C at site 100B. The output of repeater 152D at site 100C is supplied to EMM mixer 153D at site 100C. The site 100A is provided with an EMM repeater 154, and the output of the repeater 152A is sent to the second satellite operating company via the EMM repeater 154.
[0058]
In the second satellite operating company, the transmission management station 200A and the site 200B are separated from each other. The transmission management station 200A and the site 200B correspond to the site 2 in FIG. There is a customer management system (SMS) 224 in the transmission management station 200A. This customer management system (SMS) 224 corresponds to the customer management system (SMS) 24 in FIG.
[0059]
From the customer management system (SMS) 224 of the second satellite operating company, reception contract information EMM2 of the second satellite operating company is issued. The reception contract information EMM2 of the second satellite operating company is sent to the SMS distribution unit (SDU) 250. The SMS distribution unit (SDU) 250 distributes the second satellite operating company's subscriber contract information EMM2 from the customer management system (SMS) 224 of the second satellite operating company.
[0060]
The output of the SMS distribution unit (SDU) 250 is sent to a plurality of EMM process units (EPU) 251A, 251B, 251C, 251D, 251E. The EMM process units (EPU) 251A to 251E encrypt the reception contract information EMM2 of the second satellite operating company to form the EMM packet EMM2 of the second satellite operating company. The EMM process units (EPU) 251A to 251D are included in the customer viewing system (SAS) 25 in FIG.
[0061]
A repeater 252A for repeatedly sending the EMM packet PEMM2 is provided at the site 200B of the second satellite operating company. The site 100A of the first satellite operating company is provided with repeaters 252B and 252C for repeatedly sending the EMM packet PEMM2 of the second satellite operating company. The site 100B of the first satellite operating company includes A repeater 252D for repeatedly transmitting the EMM packet PEMM2 of the second satellite operating company is provided, and the EMM packet PEMM2 of the second satellite operating company is repeatedly transmitted to the site 100C of the first satellite operating company. A repeater 252E is provided.
[0062]
The output of the EMM process unit (EPU) 251A of the second satellite operating company is sent to the repeater 252A at the site 200B of the first satellite operating company. The outputs of the EMM process units (EPU) 251B, 251C, 251D, and 251E are supplied to repeaters 252B, 252C, 252D, and 252E in the first satellite operating company sites 100A to 100C, respectively.
[0063]
The EMM packets PEMM2 of the second satellite operating company from the repeaters 252B, 252C, 252D, 252E are supplied to the EMM mixers 153A, 153B, 153C, 153D, respectively. The EMM mixers 153A, 153B, 153C, and 153D are supplied with the EMM packet PEMM1 of the first satellite operating company from the repeaters 152A, 152B, 152C, and 152D. By these EMM mixers 151A to 151D, the EMM packet PEMM1 of the first satellite operating company and the EMM packet PEMM2 of the second satellite operating company are mixed.
[0064]
The outputs of the EMM mixers 153A, 153B, 153C, 153D are supplied to the multiplexers 155A, 155B, 155C, 151D. The multiplexers 155A to 155D incorporate EMM packets on the packet stream, and correspond to the multiplexer (MUX) 39 in FIG. In this way, the EMM packet EMM1 of the first satellite operating company and the EMM packet EMM2 of the second satellite operating company are mixed and transmitted from the respective sites 100A, 100B, and 100C of the first satellite operating company. .
[0065]
Further, the output of the EMM process unit (EPU) 251A of the second satellite operating company is sent to the repeater 252A in the site 200B of the second satellite operating company. The EMM packet PEMM2 of the second satellite operating company from this repeater 252A is sent to the EMM mixer 253.
[0066]
The EMM mixer 253 is supplied with the EMM packet PEMM1 of the first satellite operating company via the EMM repeater 154. The EMM mixer 253 mixes the EMM packet PEMM2 of the second satellite operating company and the EMM packet PEMM1 of the first satellite operating company.
[0067]
The output of the EMM mixer 253 is supplied to the multiplexer 255. The multiplexer 255 incorporates the EMM packet on the packet stream, and corresponds to the multiplexer (MUX) 39 in FIG. Thus, the EMM packet PEMM2 of the second satellite operating company and the EMM packet PEMM1 of the first satellite operating company are mixed and transmitted from each site 200B of the second satellite operating company.
[0068]
As described above, in the system to which the present invention is applied, the repeaters 252B to 252E of the EMM packet PEMM2 of the second satellite operating company are provided on the site of the first satellite operating company, and the first satellite operating company EMM mixers 153A to 153D for mixing the EMM packet PEMM1 and the EMM packet PEMM2 of the second satellite operating company are provided. Further, an EMM repeater 154 for sending the EMM packet of the first satellite operating company to the site of the second satellite operating company is provided at the site of the first satellite operating company. An EMM mixer 253 that mixes the EMM packet PEMM2J of the second satellite operating company and the EMM packet PEMM1 of the first satellite operating company is provided at the site of the second satellite operating company.
[0069]
Thereby, not only the EMM packet PEMM1 of the first satellite operating company but also the EMM packet PEMM2 of the second satellite operating company is output from the site of the first satellite operating company. From the company site, not only the EMM packet PEMM2 of the second satellite operating company but also the EMM packet PEMM1 of the first satellite operating company is output, and when either satellite is received, An EMM packet can be received reliably.
[0070]
As described above, when the EMM packet is exchanged between the site of the first satellite operating company and the site of the second satellite operating company, the EMM packet is sent to the satellite on the other side before the repeater is passed. The EMM packet may be sent to the site of the satellite operating company on the other side after the race. Considering the amount of data, it is desirable to send the EMM packet to the site of the satellite operating company on the other side before passing through the repeater. If the EMM packet is sent to the site of the partner satellite operating company before the repeater is passed, a repeater is required on the partner satellite operating company side to repeat the EMM packet.
[0071]
Of course, when an EMM packet is exchanged between the site of the first satellite operator and the site of the second satellite operator, the EMM from the site of the first satellite operator to the site of the second satellite operator Both the transmission of the packet and the transmission of the EMM packet from the site of the first satellite operating company to the site of the second satellite operating company both send the EMM packet to the site of the partner satellite operating company before passing through the repeater. One may send the EMM packet to the site of the satellite operating company on the other side before passing through the repeater, and the other will send the EMM packet to the other side after passing through the repeater. It may be sent to the site of the satellite operator on the other side, and both send the EMM packet to the site of the satellite operator on the other side after passing through the repeater. It may be.
[0072]
In the above example, EMM packets are exchanged by connecting the site of the first satellite operator and the site of the second satellite operator by wire, but the EMM packet sent via the satellite is received. The EMM packet may be exchanged.
[0073]
FIG. 6 shows an example in which an EMM packet sent via a satellite is received and the EMM packet is exchanged. In the above example, the EMM packet PEMM2 is sent directly from the site of the second satellite operating company to the repeaters 252B, 252C, 252D, and 252E of the site of the first satellite operating company, and this second satellite operating company The EMM packet PEMM2 and the EMM packet PEMM1 of the first satellite operating company are mixed by the EMM mixers 153A, 153B, 153C, and 153D. In this example, the repeaters 252B, 252C, 252D, and 252E Dummy IRDs 301A, 301B, 301C, and 301D are provided in the previous stage. The dummy IRDs 301A, 301B, 301C, and 301D receive the EMM packet PEMM2 of the second satellite operating company sent from the second satellite operating company via the satellite 4. The received EMM packet PEMM2 of the second satellite operating company is supplied to the repeaters 252B, 252C, 252D, and 252E. Then, the EMM packet PEMM1 of the first satellite operating company and the EMM packet PEMM2 of the second satellite operating company are mixed by the EMM mixers 153A, 153B, 153C, and 153D.
[0074]
In the example in FIG. 4, the EMM packet PEMM1 of the first satellite operating company is second managed from the site of the first satellite operating company to the site of the second satellite operating company via the EMM repeater 154. In this example, a dummy IRD 401 is provided in front of the repeater 253 on the site of the second satellite operating company. The dummy IRD 401 receives the EMM packet PEMM1 of the first satellite operating company sent from the first satellite operating company via the satellite 3. The received EMM packet PEMM1 of the first satellite operating company is supplied to the repeater 253. Then, the multiplexer 255 mixes the EMM packet EMM1 of the first satellite operating company and the EMM packet EMM2 of the second satellite operating company.
[0075]
【The invention's effect】
According to the present invention, an EMM packet from the first satellite operating company and an EMM packet from the second satellite operating company are transmitted between the site of the first satellite operating company and the site of the second satellite operating company. Have been replaced. Therefore, the viewer can reliably receive the reception contract information sent from the first satellite operating company or the second satellite operating company, regardless of which satellite operating company receives the broadcast. it can.
[Brief description of the drawings]
FIG. 1 is a schematic diagram used for explaining an example of a satellite broadcasting system to which the present invention can be applied.
FIG. 2 is a schematic diagram used for explaining transmission of an EMM packet in an example of a satellite broadcasting system to which the present invention can be applied.
FIG. 3 is a block diagram of an example of a broadcasting device in an example of a satellite broadcasting system to which the present invention can be applied.
FIG. 4 is a block diagram of an example of an IRD in an example of a satellite broadcasting system to which the present invention can be applied.
FIG. 5 is a block diagram of an example of a viewing management system to which the present invention can be applied.
FIG. 6 is a block diagram of another example of a viewing management system to which the present invention can be applied.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Site of first satellite operating company, 2 ... Site of second satellite operating company, 3, 4, ... Satellite, 7 ... IRD, 24, 124 ... Customer management system , 25 ... Customer viewing permission system, 153A to 153D, 253 ... EMM mixer, 154 ... EMM repeater

Claims (10)

A customer of multi-channel broadcasting in which a first decoder that performs multi-channel broadcasting using the first satellite and a second broadcast that performs multi-channel broadcasting using the second satellite are received by a common decoder. In the management system,
The first broadcast of the site, and the first customer management means you outputs the received contract information of the customers of the first broadcast,
First reception contract information packet generating means for generating a first broadcast reception contract information packet from the first broadcast customer reception contract information;
Means for transmitting the first broadcast reception contract information packet to a second broadcast site;
The first broadcast reception contract information packet generated by the first reception contract information packet generation means and the second broadcast reception contract information packet transmitted from the second broadcast site. First mixing means for mixing;
A first transmission means configured to incorporate the mixed reception contract information packet of the first broadcast and the reception contract information packet of the second broadcast into a packet stream, and send the packet stream via the first satellite;
The second broadcast of the site, and the second of customer management means outputs the received contract information of the customers of the second broadcast,
Second reception contract information packet generation means for generating a second broadcast reception contract information packet from the reception contract information of the second broadcast customer;
Means for transmitting the second broadcast reception contract information packet to the first broadcast site;
The second broadcast reception contract information packet generated by the second reception contract information packet generation means, and the first broadcast reception contract information packet transmitted from the first broadcast site. A second mixing means for mixing;
The second broadcast reception contract information packet and the first broadcast reception contract information packet which are mixed are incorporated into a packet stream, and a second transmission means is provided for sending the packet broadcast via the second satellite. A multi-channel broadcasting customer management system characterized by The first broadcast site repeats the first broadcast reception contract information packet from the first reception contract information packet generation means, and also receives the first broadcast reception contract information before the repeat. Send the packet to the second broadcast site,
The second broadcast site repeats the second broadcast reception contract information packet from the second reception contract information packet generation means, and also receives the second broadcast reception contract before the repeat. Send an information packet to the first broadcast site,
Further, the first broadcast site is provided with means for repeating the transmitted reception contract information packet of the second broadcast,
The second broadcast site is provided with means for repeating the transmitted reception contract information packet of the first broadcast,
At the first broadcast site, the first broadcast reception contract information packet repeated at the first broadcast site and the first broadcast site sent from the second broadcast site. And the reception contract information packet of the second broadcast repeated in the above,
At the second broadcast site, the second broadcast reception contract information packet repeated at the second broadcast site and the second broadcast site sent from the first broadcast site. 2. The customer management system for multi-channel broadcasting according to claim 1, wherein the reception contract information packet of the first broadcasting that has been repeated in step S1 is mixed. The first broadcast site repeats the first broadcast reception contract information packet from the first reception contract information packet generation means, and receives the first broadcast reception contract information after the repeat. Send the packet to the second broadcast site,
The second broadcast site repeats the second broadcast reception contract information packet from the first reception contract information packet generation means, and also receives the second broadcast reception contract before the repeat. Send an information packet to the first broadcast site,
Further, the first broadcast site is provided with means for repeating the transmitted reception contract information packet of the second broadcast,
At the first broadcast site, the reception contract information packet of the first broadcast repeated at the first broadcast site and the first broadcast site sent from the second broadcast site. Mixed with the second broadcast reception contract information packet that has been repeated,
At the second broadcast site, the reception contract information packet of the second broadcast repeated at the second broadcast site, and the first broadcast site repeated from the first broadcast site. 2. The customer management system for multi-channel broadcasting according to claim 1, wherein the first broadcast reception contract information packet sent is mixed. The first broadcast site repeats the first broadcast reception contract information packet from the first reception contract information packet generation means, and also receives the first broadcast reception contract information before the repeat. Send the packet to the second broadcast site,
The second broadcast site repeats the second broadcast reception contract information packet from the first reception contract information packet generation means, and receives the second broadcast reception contract after the repeat. Send an information packet to the first broadcast site,
Further, the second broadcast site is provided with means for repeating the transmitted reception contract information packet of the first broadcast,
At the first broadcast site, the reception contract information packet of the first broadcast repeated at the first broadcast site and from the second broadcast site repeated at the second broadcast site. Mixed with the second broadcast reception contract information packet sent,
At the second broadcast site, the second broadcast reception contract information packet repeated at the second broadcast site and the second broadcast site sent from the first broadcast site. 2. The customer management system for multi-channel broadcasting according to claim 1, wherein the reception contract information packet of the first broadcasting that has been repeated in step S1 is mixed. The first broadcast site repeats the first broadcast reception contract information packet from the first reception contract information packet generation means, and receives the first broadcast reception contract information after the repeat. Send the packet to the second broadcast site,
The second broadcast site repeats the second broadcast reception contract information packet from the first reception contract information packet generation means, and receives the second broadcast reception contract after the repeat. Send an information packet to the first broadcast site,
At the first broadcast site, the reception contract information packet of the first broadcast repeated at the first broadcast site and from the second broadcast site repeated at the second broadcast site. Mixed with the second broadcast reception contract information packet sent,
At the second broadcast site, the reception contract information packet of the second broadcast repeated at the second broadcast site, and the first broadcast site repeated from the first broadcast site. 2. The customer management system for multi-channel broadcasting according to claim 1, wherein the first broadcast reception contract information packet sent is mixed . A customer of multi-channel broadcasting in which a first decoder that performs multi-channel broadcasting using the first satellite and a second broadcast that performs multi-channel broadcasting using the second satellite are received by a common decoder. In the management method,
The first broadcast site outputs the reception contract information of the first broadcast customer,
Generating a first broadcast reception contract information packet from the first broadcast customer reception contract information;
Transmitting the reception contract information packet of the first broadcast to the second broadcast site;
Mixing the generated first broadcast reception contract information packet with the second broadcast reception contract information packet transmitted from the second broadcast site;
First mixed reception contract information packet of the first broadcast and reception contract information packet of the second broadcast are combined into a packet stream and sent via the first satellite;
The second broadcast site outputs the reception contract information of the second broadcast customer,
Generating a second broadcast reception contract information packet from the reception contract information of the second broadcast customer;
The second broadcast reception contract information packet is transmitted to the first broadcast site,
Mixing the generated reception contract information packet of the second broadcast and the reception contract information packet of the first broadcast transmitted from the first broadcast site;
The multi-channel characterized in that the mixed reception contract information packet of the second broadcast and the reception contract information packet of the first broadcast are incorporated into a packet stream and sent via the second satellite. Broadcast customer management method. The first broadcast site repeats the reception contract information packet of the first broadcast and sends the reception contract information packet of the first broadcast before the repeat to the second broadcast site. ,
The second broadcast site repeats the second broadcast reception contract information packet and sends the second broadcast reception contract information packet before the repeat to the first broadcast site. ,
At the first broadcast site, the reception contract information packet of the first broadcast repeated at the first broadcast site and the first broadcast site sent from the second broadcast site. Mixed with the second broadcast reception contract information packet that has been repeated,
In the second broadcast site, the second broadcast reception contract information packet repeated at the second broadcast site and the second broadcast site sent from the first broadcast site. 7. The multi-channel broadcasting customer management method according to claim 6 , wherein the repeated reception contract information packet of the first broadcasting is mixed. The first broadcast site repeats the first broadcast reception contract information packet, and sends the first broadcast reception contract information packet after the repeat to the second broadcast site. ,
The second broadcast site repeats the second broadcast reception contract information packet and sends the second broadcast reception contract information packet before the repeat to the first broadcast site. ,
At the first broadcast site, the reception contract information packet of the first broadcast repeated at the first broadcast site and the first broadcast site sent from the second broadcast site. Mixed with the second broadcast reception contract information packet that has been repeated,
At the second broadcast site, the reception contract information packet of the second broadcast repeated at the second broadcast site, and the first broadcast site repeated from the first broadcast site. 7. The multi-channel broadcast customer management method according to claim 6 , wherein the received broadcast reception contract information packet is mixed. The first broadcast site repeats the reception contract information packet of the first broadcast and sends the reception contract information packet of the first broadcast before the repeat to the second broadcast site. ,
The second broadcast site repeats the second broadcast reception contract information packet, and sends the second broadcast reception contract information packet after the repeat to the first broadcast site. ,
At the first broadcast site, the reception contract information packet of the first broadcast repeated at the first broadcast site and from the second broadcast site repeated at the second broadcast site. Mixed with the second broadcast reception contract information packet sent,
At the second broadcast site, the second broadcast reception contract information packet repeated at the second broadcast site and the second broadcast site sent from the first broadcast site. 7. The multi-channel broadcast customer management method according to claim 6 , wherein the reception contract information packet of the first broadcast repeated in step 1 is mixed. The first broadcast site repeats the first broadcast reception contract information packet, and sends the first broadcast reception contract information packet after the repeat to the second broadcast site. ,
The second broadcast site repeats the second broadcast reception contract information packet, and sends the second broadcast reception contract information packet after the repeat to the first broadcast site. ,
At the first broadcast site, the reception contract information packet of the first broadcast repeated at the first broadcast site and from the second broadcast site repeated at the second broadcast site. Mixed with the second broadcast reception contract information packet sent,
At the second broadcast site, the reception contract information packet of the second broadcast repeated at the second broadcast site, and the first broadcast site repeated from the first broadcast site. 7. The multi-channel broadcast customer management method according to claim 6 , wherein the received broadcast reception contract information packet is mixed .

Images