Patent Grant
7339954
1. Field of the Invention
The present invention relates to a multiplexing digital broadcast method. More particularly, the present invention relates to a multiplexing digital broadcast method of broadcasting or re-broadcasting a data except an original broadcast program data such as a data after a failure in a demodulation.
2. Description of the Related Art
In a digital broadcast, the importance with regard to the recording of its broadcast data is high. A digital broadcast receiver for receiving a digital broadcast data includes a recording/playback apparatus. The digital broadcast receiver is known from Japanese Laid Open Patent Application (JP-A-Heisei 9-238292). In such a digital broadcast receiver, as shown in
In this known apparatus, if the undesirable change of an environment such as a weather condition brings about the failure in the reception of a part of a broadcast program, one or a plurality of multiplexed digital broadcast data streams are recorded on the recording/playback apparatus in the failure state. Thus, the user can not playback the perfect program broadcast.
In a field of a communication, if a reception of data is unsuccessful, the re-transmission of the data is typically carried out. Japanese Laid Open Patent Application (JP-A-Heisei 6-224863) discloses a communication technique of re-transmitting the data if the reception of the data is unsuccessful. This known technique does not disclose the data obtainment through the re-transmission of the lost data at all if there is no signal input to the de-multiplexer or if an illegal signal is input to the de-multiplexer. It is requested to establish the technique that can perfectly obtain the multiplexing digital broadcast data. Moreover, it is desired to effectively carry out the perfect obtainment of the multiplexing digital broadcast data.
Japanese Laid Open Patent Application (JP-A-Heisei 11-313061) discloses the following data distribution center apparatus. In this data distribution center apparatus, a reception error detector detects a transmission error of a broadcast data received through a broadcast data block receiver. If there is the transmission error, a probably re-transmission request instructor probably carries out a re-transmission request so as to avoid the concentration of the re-transmission requests. On the other hand, a re-transmission request terminal size estimator estimates the number of terminals requesting the re-transmissions. If the number is small, they are individually transmitted by a particular block transmitter. If the estimated number of the terminals is large, a re-broadcast interruption processor re-broadcasts a broadcast data.
Japanese Laid Open Patent Application (JP-A 2000-232423) discloses the following communication apparatus. In this communication apparatus, a content signal of a popular program is broadcasted in advance to a terminal apparatus from a broadcast base station, and it is stored in a memory. In the terminal apparatus, if a content signal specified by a playback instruction signal is stored in the memory, the content signal is read out from the memory. On the other hand, if it is not stored in the memory, the terminal apparatus requests the specified content signal through a cellular network to a cellular base station, and receives the specified content signal.
Japanese Laid Open Patent Application (JP-A-Heisei 10-243372) discloses the following information transmission method. In this information transmission method, CPU in a terminal apparatus, if judging that there is a reception error when information of a frame unit transmitted from a host apparatus is received, stores in RAM the serial number of the frame, and enters a pseudo information into the frame having the reception error, and stores it in HDD. Then, after the connection through a modem and a public line to the host apparatus, the reception error information specifying the serial number is transmitted. After that, the information corresponding to a part of the reception error is received through the public line and the modem, and it is overwritten onto the corresponding frame.
Japanese Laid Open Patent Application (JP-A-Heisei 11-112981) discloses the following transmitting apparatus. In this transmitting apparatus and its method, when a specified part of a video signal based a re-transmission request from a receiving side is re-transmitted to the receiving side, if a temporal interval of the specified part is within a predetermined time, the specified part is collectively re-transmitted to the receiving side. Also in this transmitting apparatus and its method, the transmission side re-transmits the specified part of the video signal to the receiving side, in accordance with the re-transmission request done by the receiving side, and collectively re-transmits the specified part to the receiving side, if the temporal interval of the specified part at this time is within the predetermined time.
Japanese Laid Open Patent Application (JP-A-Heisei 11-136648) discloses the following data broadcast receiver. This data broadcast receiver has a supplementing unit for supplementing the information that could not be received, by using the already accurately received broadcast data, without updating all data file groups constituting a repeatedly broadcasted data broadcast program, for each broadcast of the program.
Japanese Laid Open Patent Application (JP-A-Heisei, 10-257001) discloses the following information transmission method. In this information transmission method, when data is transmitted from a host apparatus to a terminal apparatus, it is firstly multiplexed with a satellite broadcast wave through a satellite line, and it is transmitted. Thus, a merit of a simultaneous transmission of a large capacity of data can be obtained depending on a broadcast type. Then, the treatment for a case when a reception error occurs in the terminal apparatus is carried out as follows. Each terminal apparatus detects an error for each information of a frame unit, and uploads to the host apparatus the reception result indicative of a presence or absence of the error for each information. The host apparatus preferentially re-transmits the information having many error detection to the side of the terminal apparatus, in accordance with the reception result uploaded from each terminal apparatus.
Japanese Laid Open Patent Application (JP-A-Heisei 2-39142) discloses the following re-transmission control method. The feature of this re-transmission control method lies in the re-transmission control method of carrying out a data transmission through a relay station installed in an artificial satellite by using a wireless communication line, including: a stage at which a transmitting station for transmitting data receives and monitors a fact that the data sent by the self-station is relayed and transmitted by the relay station; and a stage at which when a condition needing a re-transmission of the data is detected at the above-mentioned stage, a procedure equal to a procedure for re-transmitting the data in accordance with a request of the receiving station is used to voluntarily re-transmit the data.
The present invention is accomplished in view of the above mentioned problems. Therefore, an object of the present invention is to provide a multiplexing digital broadcast method that can establish a technique which can perfectly obtain a multiplexing digital broadcast data.
Another object of the present invention is to provide a multiplexing digital broadcast method that can establish a technique which can effectively obtain a multiplexing digital broadcast data.
In order to achieve an aspect of the present invention, a multiplexing digital broadcast system, includes: a receiving terminal; and a broadcasting station, and wherein the receiving terminal includes: a receiving side recording device demodulating a specification digital data selectively specified from a multiplexing digital data transmitted by the broadcasting station to record; a receiving side table recording a position in a data string corresponding to a data unit of the specification digital data in which a demodulation ended in failure; and a communicating device transmitting the position in the data string to the broadcasting station, and wherein the broadcasting station includes: a broadcasting station side recording device recording an original data corresponding to the multiplexing digital data; and a supplemental data transmitting device extracting the specification digital data corresponding to the position in the data string from the original data to transmit to the receiving terminal.
In this case, the supplemental data transmitting device multiplexes the specification digital data to re-broadcast.
Also in this case, the receiving terminal further includes: an input device through which a receiving side user inputs a signal, and wherein the signal includes: a signal to playback the specification digital data recorded on the receiving side recording device; and a selection signal to select the specification digital data.
Further in this case, the position in the data string corresponds to a timing position, and the timing position is noted on the receiving side table.
In this case, the timing position includes a start time when a supplement is started with a supplemental data that is the specification digital data transmitted from the supplemental data transmitting device and an end time when the supplement is ended with the supplemental data.
Also in this case, the receiving terminal further includes: an input device through which a receiving side user inputs a signal, and wherein the signal includes: a signal to playback the specification digital data recorded on the receiving side recording device; a selection signal to select the specification digital data; and a transmission start signal to start a transmission of a supplemental data that is the specification digital data transmitted from the supplemental data transmitting device, and wherein the broadcasting station sends the supplemental data based on the transmission start signal.
Further in this case, the receiving side table records the position in the data string of the specification digital data in which the demodulation ended in failure as a playback stop position to stop playback a data recorded on the receiving side recording device.
In this case, the receiving side table records a record position of a data recorded on the receiving side recording device to playback a supplemental data that is the specification digital data transmitted from the supplemental data transmitting device instead of playback the data recorded on the receiving side recording device.
Also in this case, the receiving side table records a record position of a data recorded on the receiving side recording device to playback a supplemental data that is the specification digital data transmitted from the supplemental data transmitting device instead of playback the data recorded on the receiving side recording device.
Further in this case, the timing position includes a start time when a supplement is started with a supplemental data that is the specification digital data transmitted from the supplemental data transmitting device and an end time when the supplement is ended with the supplemental data, and wherein when a timing information of a played back one of the data recorded on the receiving side recording device which is not a supplemental data that is the specification digital data transmitted from the supplemental data transmitting device corresponds to the start time, a read out position of the played back one is changed to the record position.
In this case, the timing position includes a start time when a supplement is started with a supplemental data that is the specification digital data transmitted from the supplemental data transmitting device and an end time when the supplement is ended with the supplemental data, and wherein when a timing information of a played back one of the data recorded on the receiving side recording device which is not a supplemental data that is the specification digital data transmitted from the supplemental data transmitting device corresponds to the end time, a read out position of the played back one is changed to the playback stop position.
In order to achieve another aspect of the present invention, a multiplexing digital broadcast method, includes: demodulating a specification data selectively specified from a multiplexing digital broadcast data broadcasted by a broadcasting station on a receiving side to record; recording a position in a data string of the specification data in which the demodulating ended in failure on the receiving side; communicating the position in the data string to the broadcasting station; and re-broadcasting the specification data corresponding to the position in the data string to the receiving side by the broadcasting station.
In this case, the re-broadcasting includes:
extracting from a data received by the broadcasting station the specification data corresponding to the position in the data string transmitted from the receiving side; adding an ID to specify the receiving side and an ID to specify the specification data to the specification data; and inserting the specification data into a frequency band of the multiplexing digital broadcast data; and multiplexing the specification data.
In order to achieve still another aspect of the present invention, a multiplexing digital broadcast method, includes: providing a stream data; and multiplexing data except usual program data in the stream data to broadcast.
In this case, the data except the usual program data is a re-broadcast data that is not demodulated on the receiving side.
In order to achieve yet still another aspect of the present invention, a computer readable recording medium for recording a program for a process, includes: transmitting to a broadcasting source a position in a data string of a data except a usual program data of a specification digital data selectively specified from a digital data except usual program data multiplexed in a stream data to be broadcasted from the broadcasting source in which a demodulation ended in failure at a received side.
A multiplexing digital broadcast method according to the present invention is provided and systemized with a receiving terminal (10) and a broadcasting station (25). The receiving terminal (10) is composed of: a receiving side recording device (18) for recording a specification digital data selectively specified from a multiplexing digital data (3) transmitted by the broadcasting station (25); a receiving side table (23) for recording a position in a data string corresponding to a data unit of a specification digital data after a failure in a demodulation of the specification digital data; and a communicating device (22) for transmitting the position in the data string to the broadcasting station (25). The broadcasting station (25) is composed of: a broadcasting station side recording device (32) for recording an original data corresponding to the multiplexing digital data; and a supplemental data transmitting device (33) for extracting the specification digital data corresponding to the position in the data string from the original data, and inserting into a timing line when the multiplexing digital data is broadcasted, and then transmitting to the receiving terminal (10).
By recording the position in the data string corresponding to the data unit of the specification digital data after the failure in the demodulation, only the specification data after the failure in the demodulation, which is necessary for a user, is re-broadcasted. Thus, the re-broadcast of the supplemental data is made effective.
The supplemental data transmitting device (33) multiplexes the specification digital data and re-broadcasts it. The re-broadcast is also multiplexed, and the broadcast efficiency is further improved, and a cost of a facility investment is reduced, and a delay in an obtainment of the supplemental data is suppressed. Thus, the usage efficiency on the user side is improved.
The receiving terminal (10) further includes an input device (14) through which the receiving side user inputs a signal. The signal is composed of: a signal for playback the specification digital data recorded on the receiving side recording device (18); and a selection signal for selecting the specification digital data. Thus, the convenience of the user is excellent.
The string position in the data corresponds to the timing position. The timing position is noted on the receiving side table (23). The timing position is composed of a supplement start time and a supplement end time for the supplemental data that is the specification digital data transmitted from the supplemental data transmitter. The string position in the data physically corresponds to the timing position. The timing position and a spatial position of a recording medium of a recorder do not always correspond to each other, in a one-to-one relationship. The supplement start time and the supplement end time are recorded to thereby specify the recorded position of the received supplemental data. Thus, a series of data after the failure of the demodulation is determined.
The receiving terminal (10) further includes a transmission start signal to start the transmission of the supplemental data. The transmission start signal enables the user to obtain the supplemental data at a desired time band. In the broadcasting station (25), the transmission start signal is sent to the broadcasting station. The broadcasting station (25) sends the supplemental data based on the signal. Thus, the broadcast service is enriched.
On the receiving side table (23), the position in the data string of the specification digital data after the failure in the demodulation is recorded as a playback stop position to stop playback the data recorded on the receiving side recorder (18). If a position of a playback data coincides with the supplement start position during the playback of non-supplemental data, a position from which the supplemental data to be played back is read out is changed to a position on which the supplemental data is recorded. If the position of the supplemental data coincides with the supplement end position during the playback of the supplemental data, the position from which the supplemental data to be played back is read out is changed to the playback stop position. Thus, it is possible to automate the recording of a usual program data and the playback of the supplemental data.
The multiplexing digital broadcast method according to the present invention includes: a step at which a specification data selectively specified from a multiplexing digital broadcast data broadcasted by a broadcasting station is demodulated on a receiving side and recorded; a step at which a position in a data string of the specification data after a failure of a demodulation is recorded on the receiving side; a step at which the position in the data string is communicated to the broadcasting station; and a step at which the specification data corresponding to the position in the data string is re-broadcasted to the receiving side. The re-broadcasting step is composed of: a step of extracting from the data the specification data corresponding to the position in the data string transmitted from the reception terminal; a step of adding an ID for specifying the receiving side and an ID for specifying the specification data to the specification data; a step of inserting the specification data into a position row of the multiplexing digital broadcast data; and a step of multiplexing the specification data. Thus, the broadcast efficiency can be further improved.
The multiplexing digital broadcast method according to the present invention improves the broadcast efficiency by multiplexing data except usual program data in stream data and then broadcasting it. The data except the usual program data is especially preferably exemplified as a re-broadcast data that can not be demodulated on the receiving side. As for the specification data selectively specified from the multiplexing digital data broadcasted by such a broadcasting method, a recording medium for recording a program to transmit to a broadcast source the position in the data string of the usual program data that can not be demodulated by a user on the receiving side is detachably built in a receiver on the receiving side. Thus, it is possible to provide a service satisfying a desire of the user.
When a user of a digital broadcast receiver records a digital broadcast program on a recording/playback apparatus such as a hard disc or the like, if the digital broadcast receiver can not transiently receive a broadcast electric wave because of factors of a weather and the like and can not record a part of the program, the digital broadcast receiver transmits to a broadcasting station the information of the part that can not be received, and obtains a supplemental data sent from the broadcasting station on the basis of the information. Thus, a part of the stream data, which is stored in the recording/playback apparatus and can not be received, is supplemented. Hence, the user can look at and listen to all the broadcast programs.
An embodiment of the present invention will be described below with reference to the attached drawings.
An embodiment of a multiplexing digital broadcast system according to the present invention includes a receiving terminal together with a broadcasting station. Its receiving terminal 10 is provided with a tuner and a digital demodulation error corrector. As shown in
The digital demodulation error corrector 2 is connected to an input switch 4. The input switch 4 switches between the digital data 3 received from the digital demodulation error corrector 2 and an external input 5 received from a later-described recording/playback apparatus, and outputs it. The input switch 4 is connected to a de-multiplexer 6. The de-multiplexer 6 extracts an individual data for each program or an individual data for each information from the multiplexed digital data 3. The de-multiplexer 6 is connected to a branching device 7. The branching device 7 outputs the digital video and audio of the data extracted by the de-multiplexer 6 to an output side 8, or outputs to the side of the later-described recording/playback apparatus.
The branching device 7 is connected to a decoder 9. The decoder 9 expands compressed digital video and audio data. The de-multiplexer 6 is connected to a program specification analyzer 11. The program specification analyzer 11 analyzes a program specification information contained in the digital data 3. The program specification analyzer 11 is connected to a system controller 12 in two way directions. The system controller 12 includes therein a CPU (not shown) and a recording medium for recording a supplemental program, which is read in the CPU, for supplementing a digital broadcast data. Then, in accordance with an instruction received from an operator (user), it controls the input switch 4 and the de-multiplexer 6 in accordance with the supplemental program.
The branching device 7 is connected to a record assistance processor 13. The record assistance processor 13 assists in processing the information in recording a program. An input device 14 is connected to the system controller 12. The input device 14 sends an instruction 15 received from the operator to the system controller 12. The record assistance processor 13 is connected to a receiver side digital interface (D/IF) 16. The receiver side digital interface 16 is connected to a recording/playback apparatus 18 through a recording/playback apparatus side digital interface (D/IF) 17.
The digital demodulation error corrector 2, if it can not correct an error of the digital data 3 received from the tuner 1, records on a system memory 22, a first time information 19 corresponding to a time of an obtainment (input) of the digital data 3 normally inputted to the de-multiplexer 6 immediately before the failure in the demodulation of the digital data 3 and a second time information 21 corresponding to a time of an obtainment (input) of the digital data normally inputted to the de-multiplexer 6 in a case of a success in the demodulation of the digital data re-transmitted in the digital demodulation error corrector 2, and it generates a supplemental information table 23 composed of the first time information 19 and the second time information 21.
The system memory 22 has a modem 24. The modem 24 transmits the supplemental information table 23 recorded in the system memory 22 to a broadcasting station 25. The broadcasting station 25 has a supplemental information receiver 26 for receiving the supplemental information tables 23 transmitted from receivers of respective users. The supplemental information receiver 26 is connected to a supplemental information adder 27. The supplemental information adder 27 adds up the contents of the many supplemental information tables 23 received by the supplemental information receiver 26, and outputs an added up supplemental information 28.
The supplemental information adder 27 is connected to a supplemental data extractor 29. The supplemental data extractor 29 extracts a supplemental digital data 31 from an original data 32 of a broadcast program on the basis of the added up supplemental information 28, and generates it. The supplemental data extractor 29 is connected to a supplemental data transmitting (broadcasting) device 33. The supplemental data transmitting device 33 broadcasts the supplemental digital data 31, which is extracted from the original data 32 by the supplemental data extractor 29, by reserving a region in a multiplexing program for a broadcast data.
As shown in
Next, if a recording mode is verified at a mode verifying step S6, the sequence proceeds to a recording step S7. If it is not the recording mode, the sequence again returns back to the packet extracting step S1. Here, the detail of the control process based on the recording mode has been typically known as a conventional process of a known VTR and the like. If the packet is recorded in the recording/playback apparatus 18 at the recording step S7 and the recording is ended at an end judging step S8 and a transmission flag is on (step S9), the supplemental information table 23 is transmitted (step S10). If the recording is judged to be not ended, the sequence again returns back to the step S1 in order to carry out the packet extracting process.
If the fact that the transport_error_indicator bit is at 1 (indicative of an existence of a bit error) is detected at the error judging step S2, the times 19, 21 corresponding to the respective packets are recorded in the supplemental information table 23 as the time information, at a supplement start time recording step S11. Finally, the time information 19 of the transport stream that is normally inputted is stored in a supplement start time column 35 of the supplemental information table 23. Next, this is repeated until the input of the packet in which the transport_error_indicator bit is at 0 (indicative of non-existence of a bit error) is detected at an input resumption judging step S12 (step S12). If the packet in which the transport_error_indicator bit is at 0 (indicative of non-existence of a bit error) is inputted, the PTS/DTS of the transport stream in which the input is resumed at a time information recording step S13 is recorded in the time information 34 of the supplemental information table 23. The second time information 21 is stored in a supplement end time column 36 of the supplemental information table 23.
In succession, at a flag setting step S15, the transmission flag is set. Then, the sequence proceeds to the mode judging step S6. If the recording mode is verified, the packet is recorded in the recording/playback apparatus 18 at the recording step S7. Then, the sequence proceeds to the end judging step S8. If the recording is judged to be ended at the end judging step S8, when the fact that the transmission flag is set is detected at the flag judging step S9, a user ID 37 and a program number 38 are set for the supplemental information table 23 at the supplemental information table transmitting step S10, and it is transmitted through the modem 24 to the broadcasting station 25. If the fact that the transmission flag is not set is detected at the flag judging step S9, the sequence again returns back to the packet extracting step S1.
Next, as shown in
A packet ID peculiar to the supplemental data and the like are assigned to the generated supplemental data 31. Thus, it is transmitted as the packet data that can be identified as the supplemental data, after a band is reserved in a part of a multiplexing stream.
If the data being played back at the playback step S31 is the supplemental data 31 at the supplement operation judging step S32, when the fact that the time information (PTS/DTS) of the data being played back coincides with the supplement end time 21 of the supplemental information table 23 is detected at a supplement end time judging step S36, the read out position of the data being played back is changed to the playback stop position 41 that is the variable region on the system memory at a playback data changing step S37, and the sequence returns back to the playback step S31.
If the time information (PTS/DTS) of the data being played back does not coincide with the supplement end time 21 of the supplemental information table 23 at the supplement end time judging step S36, nothing is done, and the sequence returns back to the playback step S31. If the time information (PTS/DTS) of the data being played back does not coincide with the supplement start time 19 of the supplemental information table 23 at the supplement start time judging step S33, it is judged at a playback end judging step S38 whether or not the playback of the recorded program is ended. If it is not ended, the sequence returns back to the playback step S31. If it is ended, the playback of the recorded program is ended.
Such a series of processes enables the perfect supplement of the part of the broadcast program that could not be recorded because of the failure in the reception. Thus, it is possible to playback the entire broadcast program.
The flag judging step in this embodiment is not carried out immediately after the judgment of the end of the recording at the end judging step S8 shown in
If the de-multiplexer 6 verifies that a normal stream data could not be inputted, the supplemental information table 23 is generated. In the embodiment shown in
After the supplemental information table 23 is generated in the system memory 22 by the series of the processes shown in
As shown in
The process when the fact that the transport_error_indicator bit is not at 1 (indicative of non-existence of a bit error) is detected at the error judging step S2 in the supplemental information table generating process is carried out as shown in
Due to the series of the processes shown in
If the data being played back at the playback step S31 is the supplemental data at the supplement operation judging step S32, when the fact that the time information (PTS/DTS) of the data being played back coincides with the supplement end time 21 of the supplemental information table 23 is detected at the supplement end time judging step S36, the read out position of the data being played back is changed to the playback stop position 43 that is the member of the supplemental information table 23 in the system memory 22, at the playback changing step S37. Then, the sequence returns back to the playback step S31.
The processes in the case when the time information (PTS/DTS) of the data being played back does not coincide with the supplement end time 21 of the supplemental information table 23 at the supplement end time judging step S36 and the case when the time information (PTS/DTS) of the data being played back does not coincide with the supplement start time 19 of the supplemental information table 23 at the supplement start time judging step S33 are equal to the process shown in
The multiplexing digital broadcast method according to the present invention can improve the broadcast efficiency in the broadcast of the digital data except the original broadcast program. In particular, it can improve the re-broadcast service of the data that could not be demodulated. Since the broadcast of the digital data except the original broadcast program is multiplexed, the broadcast efficiency can be further improved.
As the actual first effect, the broadcast program can be played back from the recording/playback apparatus without any loss of the broadcast content, except the case when most of the broadcast program is lost as the statistical result in all users, even if the user of the digital broadcast receiver having the recording/playback apparatus can not receive the broadcast electric wave because of the influences of the weather condition and the like and it is recorded under a condition that a part of the recorded program is lost. At present, as electric wave bands to be assigned to one station in BS and CS digital broadcasts, correspond to about 10 channels. The bands actually being used correspond to about 7 channels. Thus, the present invention is effective even if a maximum of about 30% of the program is lost.
As the actual second effect, when a viewer, namely, a client fails in the recording of a part of the broadcast program and if a broadcasting dealer tries to insure it, only the lost part can be divided in the multiplexing stream and then transmitted. Thus, it is possible to reduce the band of the stream necessary for the insurance. If about 30% of the entire program is insured within the same time as the broadcast time of the entire program, it is sufficient that the broadcasting dealer only reserves about 30% of the assigned band.
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