JP4161704B2 - Digital broadcast receiving system and mobile TV receiving terminal - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a system and method for receiving a digital broadcast.
[0002]
[Prior art]
Terrestrial digital broadcasting is scheduled to start from the end of 2003, and a broadcasting service for portable terminals using this terrestrial digital broadcasting is to be implemented. In addition, preparations for mobile satellite broadcasting services are also underway, and a service for directly receiving and presenting digital broadcasts on mobile terminals is about to begin. However, there are some problems in implementing these services as described below.
[0003]
Since the mobile TV receiving terminal has a mounting environment equivalent to the antenna environment mounted on a mobile phone or the like, the antenna environment of the fixed TV receiver (the environment where a high gain Yagi antenna is received on a roof with a height of 10 m above the ground) Can only be realized in a very low gain environment. Since there is a limit to the performance of an antenna that can be mounted in this manner, there may be a case where sufficient reception power for receiving a transport packet cannot be secured without causing a reception error.
[0004]
In addition, since the reception environment of the viewer (reception location, movement status, shield status) and the like change frequently, there are many cases in which a reception error occurs in the transport packet due to the deterioration of the reception environment.
[0005]
Therefore, several systems and methods for solving the above problems have been proposed. For example, Patent Document 1 discloses an information distribution system that provides missing data via the Internet when missing data occurs in received distribution information. The main system configuration consists of a broadcast station and a data communication terminal that receives digital broadcast waves from this broadcast station. The broadcast station includes a distribution information database in which information about broadcast contents (distribution information) is stored. There is provided a distribution information management server that performs mutual communication with a data communication terminal via the Internet.
[0006]
In the above information distribution system, when there is missing data in the distribution information received by the digital broadcast wave from the broadcasting station, the data communication terminal requests the distribution information management server to transmit the missing data via the Internet. When the distribution information management server receives the missing data transmission request from the data communication terminal, the distribution information management server reads the data corresponding to the missing data from the distribution information database, packetizes the read data, and transmits the packetized data to the data communication terminal via the Internet. . The data communication terminal supplements the missing portion of the distribution information received by the digital broadcast wave with the missing data received from the distribution information management server.
[0007]
[Patent Document 1]
Japanese Patent Laid-Open No. 2002-237813
[0008]
[Problems to be solved by the invention]
However, the conventional system described above has the following problems.
[0009]
Acquisition of missing data via the Internet is usually performed using a paid line. In the above-described conventional system, the data communication terminal acquires all the missing data from the distribution information management server via the Internet. Therefore, when the amount of missing data is large, the communication fee increases. There is a problem. In addition, when the amount of missing data is large, there is a problem that the time required for transmission / reception of the missing data becomes longer and the waiting time until the delivery information is reproduced becomes longer.
[0010]
An object of the present invention is to solve the above-described problems and to reduce a communication fee and transmission / reception time when re-acquiring broadcast content that could not be received by direct reception of broadcast waves, It is to provide a digital broadcast receiving method.
[0011]
It is a further object of the present invention to provide a portable television receiving terminal, a communication server, and a program that realize such a digital broadcast receiving method.
[0012]
[Means for Solving the Problems]
The digital broadcast receiving system of the present invention is
A broadcasting station that broadcasts a transport packet by dividing a broadcast content into packets that are information units, and a digital broadcast wave;
A portable television receiving terminal for receiving digital broadcast waves from the broadcasting station;
A communication server comprising a broadcast content database in which information relating to the broadcast content is stored in advance, and capable of mutual communication with the portable television receiving terminal;
When a reception error occurs in the transport packet received by the digital broadcast wave, the portable television receiving terminal predicts the degree of reproduction quality when reproduction is performed with the reception error occurring, and the prediction result is By viewers If the reproduction quality condition set in advance is not satisfied, the communication server is requested to reacquire data that has caused the reception error,
The communication server reads, from the broadcast content database, the minimum necessary data for restoring the data in which the reception error has occurred that can satisfy the reproduction quality condition in response to a request for re-acquisition of the data. And transmitting to the portable television receiving terminal.
[0013]
The portable television receiving terminal of the present invention is
Receiving means for receiving a transport packet obtained by breaking broadcast content into packets that are information units;
Communication means for performing mutual communication with a communication server including a broadcast content database in which information related to the broadcast content is stored in advance;
Error packet analysis means for analyzing whether or not a reception error has occurred with respect to the transport packet received by the reception means;
When the error packet analysis means reports that the reception error has occurred, it predicts the degree of reproduction quality when reproduction is performed with the reception error occurring, and the prediction result is By viewers Only when the reproduction quality condition set in advance is not satisfied, the minimum necessary amount for restoring the transport packet in which the reception error occurs can satisfy the reproduction quality condition via the communication means. And control means for acquiring data from the communication server.
[0015]
The digital broadcast receiving method of the present invention includes a broadcast station that broadcasts a transport packet obtained by dividing broadcast content into packets that are information units by a digital broadcast wave, and a portable television receiving terminal that receives the digital broadcast wave from the broadcast station; A digital broadcast receiving method performed in a system having a communication server capable of mutual communication with the portable television receiving terminal, comprising a broadcast content database in which information related to the broadcast content is stored in advance,
When the mobile TV receiving terminal generates a reception error in the transport packet received by the digital broadcast wave, the mobile TV receiving terminal predicts the reproduction quality when the reproduction is performed with the reception error generated, and the prediction result is By viewers Requesting the communication server to reacquire the data in which the reception error has occurred when the reproduction quality condition set in advance is not satisfied;
The communication server reads from the broadcast content database the minimum necessary data for restoring the data in which the reception error has occurred, which can satisfy the reproduction quality condition in response to a request for re-acquisition of the data. And transmitting to the portable television receiving terminal.
[0016]
The program according to the present invention includes a broadcast station that broadcasts a transport packet obtained by dividing broadcast content into packets that are information units by a digital broadcast wave, a portable television receiving terminal that receives a digital broadcast wave from the broadcast station, A program used in a system having a communication server capable of mutual communication with the portable television receiving terminal, comprising a broadcast content database in which information about content is stored in advance,
When a reception error occurs in the transport packet received by the digital broadcast wave, the degree of reproduction quality when reproduction is performed with the reception error occurring is predicted, and the prediction result is By viewers When the reproduction quality condition set in advance is not satisfied, the computer of the portable television receiving terminal is caused to execute a process of requesting the communication server to reacquire the data in which the reception error has occurred,
In response to a request for re-acquisition of the data, the minimum necessary data for restoring the data in which the reception error has occurred that can satisfy the reproduction quality condition is read from the broadcast content database and received by the portable television The process of transmitting to a terminal is executed by a computer of the communication server.
[0017]
According to the digital broadcast receiving system, portable television receiving terminal, communication server, digital broadcast receiving method and program of the present invention described above, when restoring a transport packet in which a reception error has occurred, a preset reproduction quality condition is set. The minimum necessary data that can be satisfied is acquired from the communication server. The communication fee and communication time in this case are greatly reduced compared to the conventional system that acquires all the data of the transport packet in which a reception error has occurred from the server.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings.
[0019]
(First embodiment)
FIG. 1 is a block diagram showing a schematic configuration of a digital broadcast receiving system according to the first embodiment of the present invention. In this digital broadcast receiving system, a broadcast station 301 that broadcasts a transport packet 304 obtained by dividing broadcast content 302 into packets that are information units using a digital broadcast wave 303, and a portable television that receives the digital broadcast wave 303 from the broadcast station 301. A wireless carrier base station 306 and a hot spot AP (access point) 307 that perform wireless communication between the receiving terminal 305 and the portable television receiving terminal 305, and a broadcast content database 310 that stores information about the broadcast content 302 are stored. And a communication server 309 provided.
[0020]
The portable television receiving terminal 305 has a function of receiving the transport packet 304 transmitted by the digital broadcast wave 303 and a function of reproducing it. The portable television receiving terminal 305 reproduces the broadcast content 302 broadcasted by the broadcast station 301 to the viewer. Can be presented. In addition, the portable television receiving terminal 305 is also equipped with a wireless communication function, and can perform wireless communication with the wireless communication wave 311 between the wireless communication carrier base station 306 and the hot spot AP 307.
[0021]
The radio communication carrier base station 306 and the hot spot AP 307 are connected to a backbone communication network 308, and a communication server 309 exists on the communication network 308. The broadcast content database 310 provided in the communication server 309 stores information related to the broadcast content 302 being broadcast by the broadcast station 301 (including data included in the transport packet 304 being broadcast). is there.
[0022]
The hot spot AP 307 is well known as an Internet connection service, and the mobile TV receiving terminal 305 is a communication server 309 existing on the communication network 308 in the communication area of the hot spot AP 307 or the wireless carrier base station 306. Can be accessed.
[0023]
In the digital broadcast receiving system of the present embodiment, the mobile television receiving terminal 305 cannot receive part or all of the data in the transport packet 304 transmitted from the broadcast station 301 due to deterioration of the reception environment, or If the transport packet 304 itself cannot be received due to the occurrence of a burst-like error, and the playback quality condition set in advance by the viewer cannot be satisfied by playing it as it is, the set playback quality condition The minimum necessary data for restoring the data that could not be received and that can satisfy the above condition is acquired from the communication server 309 by the communication packet 312. Then, the portable television receiving terminal 305 restores the transport packet 304 using the minimum necessary data acquired from the communication server 309. Thereby, the reproduction quality set by the viewer can be ensured, and the moving image reproduction screen and the reproduction audio can be prevented from being frozen or blacked out.
[0024]
Hereinafter, specific configurations and operations of the portable television receiving terminal and the communication server that can realize the above-described restoration operation will be described.
[0025]
(Mobile TV receiver)
FIG. 2 shows a specific configuration of the portable television receiving terminal. This portable television receiving terminal includes a digital tuner unit 401, a digital baseband demodulation unit 402, a TS-DeMUX (transport stream demultiplexer) unit 403, a video decoder unit 404, a display unit 405, an audio decoder unit 406, a head speaker. Unit 407, system control / packet recovery control unit 408, UI (user interface) unit 409, reception error packet detection unit 410, packet storage unit 411, packet recovery unit 412, reproduction condition setting unit 413, wireless communication unit 414, and communication control Part 415.
[0026]
The digital tuner unit 401 can select a desired channel, and can extract a broadcast wave in a band corresponding to the selected channel from broadcast waves received by the mounted antenna. The broadcast wave signal extracted by the digital tuner unit 401 is input to the digital baseband demodulation unit 402, where the digital baseband signal, that is, the transport packet is demodulated and extracted.
[0027]
The transport packet demodulated by the digital baseband demodulation unit 402 is input to the TS-DeMUX unit 403, where the configuration of the transport packet is analyzed, and predetermined broadcast content is extracted from the multiplexed packet configuration. It is. Specifically, the TS-DeMUX unit 403 separates audio stream packets, video stream packets, data broadcast packets, other service information packets, and the like that are broadcast on the selected broadcast channel. The configuration example illustrated in FIG. 2 is a terminal configuration example that processes an audio stream packet and a video stream packet among such stream packets.
[0028]
The digital baseband unit 402 and the TS-DeMUX unit 403 are those in which the received transport packet is normally received or a reception error occurs in the process of analyzing the configuration of the received packet. It is possible to identify whether there is. The TS-DeMUX unit 403 supplies the extracted broadcast content together with the identification result to the reception error packet detection unit 410 at the next stage.
[0029]
The reception error packet detection unit 410 is an error packet analysis unit that systematically analyzes the reception status of each transport packet based on the identification result input from the TS-DeMUX unit 403.
(1) The packet format was received correctly, but there is an error in part of the data.
(2) A part of the entire transport packet is missing.
And receiving error analysis information including the presence / absence of an error and the grasped contents for each identifier unique to the transport packet (transport packet ID). The reception error analysis information of each transport packet output from the reception error packet detection unit 410 is reported to the system control / packet restoration control unit 408.
[0030]
Also, the reception error packet detection unit 410, when the analysis of the reception state of the transport packet is finished, the packet storage unit receives the video stream packet and the audio stream packet for reproducing the broadcast content input from the TS-DeMUX unit 403 411. The stream packet transferred in this way is temporarily stored in the packet storage unit 411.
[0031]
The system control / packet restoration control unit 408 determines whether a reception error has occurred in the received transport packet based on the reception error analysis information from the reception error packet detection unit 410. If it is determined that no reception error has occurred, the system control / packet restoration control unit 408 immediately reads out the video stream packet and the audio stream packet temporarily stored in the packet storage unit 411. The video stream packet and the audio stream packet read out in this way pass through the packet restoration unit 412 as they are and are input to the video decoder unit 404 and the audio decoder unit 406, respectively. In the video decoder unit 404, the input video stream packet is decoded into moving image data, and the moving image data is presented as a moving image on the display unit 405. The audio decoder unit 406 decodes the input audio stream packet into audio data, and the audio data is reproduced and output by the headphone speaker unit 407.
[0032]
A UI unit 409 is connected to the system control / packet restoration control unit 408, thereby realizing a user interface such as a channel selection operation. The viewer can arbitrarily set the playback quality of the broadcast content when a reception error occurs via the UI unit 409. The setting information related to the required reproduction quality set in this way is stored in the reproduction condition setting unit 413, and the system control / packet restoration control unit 408 accesses the setting information stored in the reproduction condition setting unit 413. can do.
[0033]
When a reception error occurs, the system control / packet restoration control unit 408 determines whether image quality or audio quality that satisfies the required reproduction quality condition set in the reproduction condition setting unit 413 can be secured in that state. If it is determined that the data cannot be secured, the communication control unit 415 is instructed to acquire the minimum necessary data for restoring the data. When it is determined that it can be secured, the same operation as that in the case where the above-described reception error does not occur is performed.
[0034]
Access to a communication server arranged on an external communication network is possible by wireless communication via the wireless communication unit 414. Upon receiving a data acquisition instruction for data recovery from the system control / packet recovery control unit 408, the communication control unit 415 accesses an external communication server and acquires the minimum necessary data for recovery. The data acquired in this way is temporarily stored in the packet storage unit 411 together with the video stream packet and audio stream packet sent from the reception error packet detection unit 410, and then read out by the system control / packet restoration control unit 408.
[0035]
The data read out by the system control / packet restoration control unit 408 is supplied to the packet restoration unit 412 where the missing portion due to the reception error is restored. The reproduction quality of the video stream packet and audio stream packet after the restoration satisfies the requested reproduction quality set in the reproduction condition setting unit 413.
[0036]
The video stream packet and the audio stream packet generated by the packet restoration unit 412 are input to the video decoder unit 404 and the audio decoder unit 406, respectively. In the video decoder unit 404, the input video stream packet is decoded into moving image data, and the moving image data is presented as a moving image on the display unit 405. The audio decoder unit 406 decodes the input audio stream packet into audio data, and the audio data is reproduced and output by the headphone speaker unit 407.
[0037]
Digital tuner unit 401, digital baseband demodulation unit 402, TS-DeMUX unit 403, video decoder unit 404, display unit 405, audio decoder unit 406, headphone speaker unit 407, reception error packet detection unit 410, packet storage unit 411 The operations of the functional blocks of the packet restoration unit 412 and the communication control unit 415 are all controlled by the system control / packet restoration control unit 408 in real time.
[0038]
Next, the operation when a reception error occurs, which is the most characteristic operation of the portable television receiving terminal 305, will be described in detail with reference to FIGS.
[0039]
When the portable television receiving terminal 305 receives the broadcast wave 303 from the broadcast station 301, first, the digital baseband unit 402 and the TS-DeMUX unit 403 normally receive the transport packet in the process of analyzing the configuration of the received packet. It is identified whether it is received or a reception error has occurred. Then, the reception error packet detection unit 410 systematically analyzes the reception status of each transport packet based on the identification result. In this analysis, for example,
(A) Some data of a voice packet broadcast with a transport packet of “ID = AAA” is not normal due to an error.
(B) The data of the XX frame including the I frame of the video frame broadcast with the transport packet of “ID = BBB to ID = CCC” is missing.
(C) All transport packets from “ID = XXXX to ID = YYYY” cannot be received due to a reception error.
Get the analysis results. The analysis result thus obtained is reported to the system control / packet restoration control unit 408 as reception error analysis information.
[0040]
Receiving the report of reception error analysis information, the system control / packet restoration control unit 408 first performs stream playback in the video decoder unit 404 and the audio decoder unit 406 while maintaining the transport packet in which the reception error has occurred. Predict the playback quality in case. In this prediction, for example,
(A) The audio during playback is lost for 10 ms.
(B) The moving image at the time of reproduction freezes XX frame, but the sound is reproduced normally.
(C) Since broadcast content for a certain period has not been acquired, the reproduction quality cannot be predicted for a maximum of X seconds.
To obtain the prediction results of playback quality.
[0041]
Next, the system control / packet restoration control unit 408 determines whether or not the predicted playback quality satisfies a required playback quality condition preset in the playback condition setting unit 413. If it is determined that the required playback quality condition is not satisfied, the system control / packet restoration control unit 408 stores the received video stream packet and audio stream packet in the packet storage unit 411 and sets the required playback quality condition. Identify the minimum required missing transport packets to satisfy. Information of the transport packet that needs to be reacquired specified in this way is passed to the communication control unit 415.
[0042]
When the information on the transport packet that needs to be reacquired is input from the system control / packet restoration control unit 408, the communication control unit 415 receives the wireless carrier base station 306 or the hot spot AP 307 by wireless communication via the wireless communication unit 414. Access to the communication server 309 existing on the communication network 308 and information on the transport packet that needs to be reacquired (for example, the packet ID of the transport packet that needs to be reacquired). To request reacquisition of the transport packet.
[0043]
Receiving the transport packet reacquisition request, the communication server 309 acquires the minimum necessary data regarding the requested transport packet from the broadcast content database 310. Then, the communication server 309 transmits the acquired necessary minimum data (re-acquired video / audio stream packet) from the wireless carrier base station 306 or the hot spot AP 307 to the portable television receiving terminal 305 via the communication network 308 by wireless communication. To do.
[0044]
The reacquired video / audio stream packet transmitted via the wireless communication network is temporarily stored in the packet storage unit 411 via the wireless communication unit 414 and the communication control unit 415 sequentially. When the re-acquisition of the desired video / audio stream packet is completed, the system control / packet restoration control unit 408 and the video / audio stream packet normally received from the broadcasting station 301 and the video / audio re-acquired from the communication server 309 are obtained. Each stream packet is read from the packet storage unit 411 and supplied to the packet restoration unit 412. The packet restoration unit 412 restores the video / audio stream packet that can ensure the required reproduction quality set in the reproduction condition setting unit 413 from the supplied video / audio stream packet.
[0045]
Of the video / audio stream packets generated by the packet restoration unit 412, the video stream packet is decoded by the video decoder unit 404 and presented as a moving image by the display unit 405, and the audio stream packet is decoded by the audio decoder unit 406 and headphone. Sound is reproduced by the speaker unit 407.
[0046]
Next, the transport packet transmitted from the broadcast station 301 and the transport packet received by the portable television receiving terminal 305 will be described in detail, and how the data re-acquisition request is made will be described. Explained.
[0047]
FIG. 3 is a conceptual diagram of the transport packet format. In FIG. 3, a transmission transport packet 501 is a transport packet transmitted from the broadcasting station 301, and a reception transport packet 506 is a transport packet received by the portable television receiving terminal 305. Note that an actual transport packet has a very complicated configuration as compared to this conceptual diagram, but here, the minimum necessary concept for explaining the gist of the present invention is shown.
[0048]
The outgoing transport packet 501 includes a payload 505 that is a broadcast content such as a video / audio stream packet, a transport packet ID 502 (part A in FIG. 3), a video packet / audio packet identifier 503 added to the header thereof. (Part B in FIG. 3), a parameter (content parameter) 504 (part C in FIG. 3) indicating the degree of influence on the playback quality of the content broadcast in the payload 505, that is, the video / audio stream packet Consists of. The broadcast content in the payload 505 includes video content, audio content, data content, and the like.
[0049]
The transport packet ID 502 can be considered as continuous data with a certain time or a starting point of a certain program as a start value. Therefore, a target transport packet (for example, a transport packet that needs to be reacquired) can be specified from the transport packet ID 502. The video packet / audio packet identifier 503 indicates whether the stream packet stored in the payload 505 and broadcast is a video packet or an audio packet. The content parameter 504 indicates the degree of influence at the time of reproduction when the stream content stored in the payload 505 and broadcast is missing. For example, a frame constituted by a video stream packet is an I frame or a P frame. Compressed information indicating which one of the B frames is used, or information such as an audio stream in which the content itself is silent in the first place even if it is not reproduced from the content. Composed.
[0050]
One received transport packet 506 indicates whether or not the transport packet has been normally received, in addition to the transport packet ID 502, the video packet / audio packet identifier 503, the content parameter 504, and the payload 505. A reception error flag 507 is added. “E” is assigned as the reception error flag 507 to the reception transport packet 506 in which the reception error is recognized by the TS-DeMUX unit 403. If a reception error is not recognized, the reception error flag 507 is “N”.
[0051]
In the example of FIG. 3, transmission transport packets whose transport packet IDs 502 are “1” to “12” are sequentially transmitted from the broadcasting station 301, and the transport packet ID 502 is “1” to “1”. A state is shown in which the received transport packets “3”, “7” to “12” are sequentially received. Since the received transport packet with the transport packet ID 502 “7” is received next to the received transport packet with the transport packet ID 502 “3”, the transport packet ID 502 is “4” to “6”. It can be seen that the transport packet is not received. In addition, for reception transport packets whose transport packet ID 502 is “2”, “3”, or “11”, the reception error flag 507 is “E”, so that the data is received as part of the data in the packet. It can be seen that an error has occurred.
[0052]
In the mobile tele reception unit 305 shown in FIG. 2, the reception error packet detection unit 410 includes information on reception errors included in the reception transport packet 506, specifically, video packet / audio packet identifier 503, The reception error status obtained from the content parameter 504 and the reception error flag 507 is systematically analyzed and grasped for each transport packet. For example, referring to the example of FIG. 3, a received transport packet whose transport packet ID 502 is “2” has a reception error flag 507 of “E”, a video packet / audio packet identifier 503 of “V”, and a content parameter 504 of “2”. From these, an analysis result that an error has occurred in a part of the data of the video stream packet having the influence degree can be obtained. The analysis result is reported to the system control / packet restoration control unit 408.
[0053]
The system control / packet restoration control unit 408 predicts the reproduction quality from the analysis result reported from the reception error packet detection unit 410, and uses the prediction result and the requested reproduction quality information preset in the reproduction condition setting unit 413. Compare. The preset required playback quality information is a breakdown of the playback quality information set by the viewer. For example, the required playback quality information can be set in five stages from high quality (level 5) to low quality (level 1). If you can
(A) “Voice quality = level 4”: As for audio stream packets, those having a large influence level and a medium influence level are always reproduced.
(B) “Video quality = level 2”: With regard to video stream packets, those having a large influence level are reproduced at 50% or more so that two packets are not lost continuously.
Setting such as can be considered.
[0054]
When the predicted reproduction quality satisfies the required reproduction quality condition as described above, the system control / packet restoration control unit 408 deletes the transport packet that has caused a reception error. For example, referring to the example of FIG. 3, the reception error packet detection unit 410 has an error in a part of the data of the video stream packet in the influence degree as an analysis result of the reception transport packet whose transport packet ID 502 is “2”. Report the result of the occurrence. Based on the report, the system control / packet restoration control unit 408 has the above-mentioned “video quality = level 2” reproduction quality predicted when the received transport packet with the transport packet ID 502 of “2” is deleted. Determine whether the condition is met. In this case, since the predicted reproduction quality satisfies the condition of “video quality = level 2”, the system control / packet restoration control unit 408 deletes the received transport packet whose transport packet ID 502 is “2”, The decoders 404 and 406 decode the video / audio stream packet broadcast by the transport packet that has been successfully received. At this time, decoding is performed in a state where a part of the stream content is missing, but for example, the missing period is silenced by the error processing function of the decoder. Processing such as presentation is performed.
[0055]
On the other hand, if there is a transport packet in which a reception error has occurred or the packet itself has not been received and the predicted reproduction quality does not satisfy the required reproduction quality condition, the system control / packet restoration control unit 408 The packet ID of the transport packet is specified, and the communication control unit 415 is instructed to reacquire data based on the specified packet ID. The operation of this reacquisition instruction will be described below with reference to the example of FIG.
[0056]
The reception error packet detection unit 410 uses the system control / packet analysis result to indicate that an error has occurred in a part of the data of the audio stream packet having a large influence on the reception transport packet whose transport packet ID 502 is “3”. Report to the restoration control unit 408. Based on the report, the system control / packet restoration control unit 408 determines that the reproduction quality predicted when the received transport packet with the transport packet ID 502 of “3” is deleted is “voice quality = level 4”. Determine whether the condition is met. In this case, since the predicted reproduction quality does not satisfy the condition of “voice quality = level 4”, the system control / packet restoration control unit 408 causes “3” of the packet ID 502 of the received transport packet that has received the reception error. ”Is specified, and the communication control unit 415 is instructed to reacquire data based on the specified packet ID“ 3 ”.
[0057]
Also, the reception error packet detection unit 410 receives all the transport packets with the packet IDs “4” to “6” due to the reception error for the reception transport packets with the transport packet ID 502 of “4” to “6”. An analysis result indicating that the data cannot be received is reported to the system control / packet restoration control unit 408. Based on the reported analysis result, the system control / packet restoration control unit 408 predicts that the reproduction quality cannot be predicted for a maximum of X seconds because broadcast content for a certain period has not been acquired. Since this prediction result does not satisfy any of the above-mentioned conditions of “video quality = level 2” and “audio quality = level 4”, the system control / packet restoration control unit 408 does not receive the transport packet that could not be received. The packet ID 502 “4” to “6” is specified, and the communication control unit 415 is instructed to reacquire data based on the specified packet IDs “4” to “6”.
[0058]
When instructed to reacquire the transport packet as described above, the communication control unit 415 generates a communication packet of a predetermined format and sends it to the external communication server via the wireless communication unit 414. The format of the communication packet will be described in detail in the description of the communication server described later.
[0059]
(Communication server)
FIG. 4 shows a specific configuration of the communication server used in the system shown in FIG. This communication server includes the broadcast content database 310 shown in FIG. 1, a network interface (I / F) unit 601, a communication control unit 602, a system control unit 603, a packet request processing unit 604, a content determination unit 605, a reproduction. A condition storage unit 606 is included.
[0060]
The communication packet transmitted from the portable television receiving terminal described above is received by the communication control unit 602 from the network 308 via the network I / F unit 601 via the wireless communication network. FIG. 5 shows a conceptual diagram of the configuration of the communication packet.
[0061]
Referring to FIG. 5, a communication packet includes a payload 704 that stores data transmitted and received between the communication server and the above-described portable television receiving terminal, and a communication packet ID 701 (A in FIG. Part), a request command 702 (part B in FIG. 5), and the number of parameters 703 of the payload 704 (part C in FIG. 5). The communication packet ID 701 is continuous data starting from a certain point in time, and its system differs depending on the direction of communication. In the example of FIG. 5, the communication packet ID 701 “1” to “3” transmitted from the mobile TV receiving terminal side and the communication packet ID 701 “100” communication transmitted from the communication server side. Packets are shown.
[0062]
A communication packet whose communication packet ID 701 is “1” is a setting from the mobile TV receiving terminal to the communication server, a request command 702 is “required reproduction quality setting” (“setting” in FIG. 5), and the payload 704 includes In the portable television receiving terminal, information relating to the required reproduction quality set by the viewer is stored. The communication packet with the communication packet ID 701 “2” is a request from the mobile TV receiving terminal to the communication server, the request command 702 is “packet request” (“request 1” in FIG. 5), and the payload 704 includes One or a plurality of transport packet IDs requesting reacquisition are stored. A communication packet whose communication packet ID 701 is “3” is a request from the mobile TV receiving terminal to the communication server, a request command 702 is a “burst error request” (“request 2” in FIG. 5), and the payload 704 includes One or a plurality of transport packet IDs that could not be acquired are stored. The communication packet with the communication packet ID 701 of “101” is a response from the communication server to the portable television receiving terminal, the request command 702 is a “packet response” (“response 1” in FIG. 5), and the payload 704 is retransmitted. One or a plurality of video / audio stream packets stored in the payload of the transport packet requested to be acquired are stored.
[0063]
When a reception error occurs in a part of the data in the packet or the packet itself cannot be received on the mobile TV receiving terminal side, and the requested playback quality set by the viewer cannot be secured as it is The communication packets with the communication packet ID 701 of “1” to “3” as described above are sequentially transmitted. On the communication server side, when a communication packet is received from the mobile TV receiving terminal side, the system control unit 603 that controls the operation of the entire communication server responds as follows according to the contents of the received communication packet request command 702. I do.
[0064]
(1) When the required command is the required playback quality setting
When the request command 702 of the received communication packet is “required playback quality setting” (corresponding to the communication packet whose packet ID 701 is “1” in FIG. 5), the system control unit 603 requests the viewer from the payload 704. The reproduction quality information is acquired and stored in the reproduction condition storage unit 608.
[0065]
(2) When the request command is a packet request
When the received communication packet request command 702 is “packet request” (corresponding to the communication packet with the packet ID 701 “2” in FIG. 5), the system control unit 603 requested reacquisition from the payload 704. ID information of the transport packet is acquired and notified to the packet request processing unit 604. The packet request processing unit 604 searches the broadcast content database 310 using the notified ID information as a key, and reads out the requested video / audio stream packet.
[0066]
The read video / audio stream packet is transferred to the communication control unit 602. The communication control unit 602 generates a communication packet (corresponding to the communication packet whose packet ID 701 in FIG. 5 is “101”) in which the transferred video / audio stream packet is stored in the payload 704, and receives it from the network interface unit 601. The data is transmitted on the communication network 308. The communication packet transmitted on the communication network 308 is received by the portable television receiving terminal via the wireless communication network.
[0067]
(3) When the request command is a burst error request
When the received communication packet request command 702 is “burst error request” (corresponding to the communication packet with the packet ID 701 “3” in FIG. 5), the system control unit 603 can acquire the payload 704 from the burst error. Information relating to the transport packet that did not exist is extracted and supplied to the content determination unit 605.
[0068]
The content determination unit 605 searches the broadcast content database 310 using information related to the transport packet that could not be acquired due to the input burst error as a key, and reads out the corresponding information. The broadcast content database 310 stores information in a format as shown in FIG. 3, and the relevant information read by the content determination unit 605 includes at least information related to importance.
[0069]
Next, the content determination unit 605 uses the importance level of the read corresponding information and the requested reproduction quality information of the viewer stored in the reproduction condition storage unit 608 to ensure the requested reproduction quality. It is determined at least in which transport packet the video / audio stream packet stored and broadcasted needs to be reacquired. Then, the content determination unit 605 reads from the broadcast content database 310 the video / audio stream packet determined to be reacquired based on the determination result.
[0070]
The read video / audio stream packet is transferred to the communication control unit 602. The communication control unit 602 generates a communication packet (corresponding to the communication packet whose packet ID 701 in FIG. 5 is “101”) in which the transferred video / audio stream packet is stored in the payload 704, and receives it from the network interface unit 601. The data is transmitted on the communication network 308. The communication packet transmitted on the communication network 308 is received by the portable television receiving terminal via the wireless communication network.
[0071]
The response operations (1) to (3) described above are basic operations when the communication packets with the communication packet IDs 701 shown in FIG. 5 of “1” to “3” are sequentially received. However, the order is not limited to this. For example, when a state in which the requested reproduction quality set by the viewer cannot be ensured only when a reception error occurs in a part of the data in the packet on the mobile TV receiving terminal side, (2 ) Only the response operation is performed. Further, when a state in which the required playback quality set by the viewer cannot be ensured occurs only when the packet itself is not received on the mobile TV receiving terminal side, (1) and (3) A response operation is performed.
[0072]
According to the digital broadcast receiving system of the present embodiment described above, it is possible to ensure the reproduction quality desired by the viewer even when the reception environment deteriorates. Moreover, when re-acquiring broadcast content that could not be received by direct reception of broadcast waves, it is designed to acquire the minimum necessary data that can ensure the playback quality desired by the viewer. Communication charges and transmission / reception times required for data reacquisition can be greatly reduced.
[0073]
(Second Embodiment)
The digital broadcast receiving system according to the present embodiment, in addition to the re-acquisition of the transport packet when the above-described required reproduction quality condition is not satisfied, the communication fee condition set in advance by the viewer when performing the re-acquisition Communication control is performed such that a wireless communication network that satisfies the above conditions is selected, or communication itself is canceled when the communication fee condition is not satisfied. The configuration is basically the same as the system configuration shown in FIG. 1 except for a part of the configuration and operation of the mobile TV receiving terminal. Therefore, only the configuration and operation of the mobile TV receiving terminal are described here. explain.
[0074]
FIG. 6 shows a specific configuration of a portable television receiving terminal used in the digital broadcast receiving system of this embodiment. This portable television receiving terminal includes a digital tuner unit 801, a digital baseband demodulation unit 802, a TS-DeMUX unit 803, a video decoder unit 804, a display unit 805, an audio decoder unit 806, a head speaker unit 807, system control / packet restoration control. A unit 808, a UI unit 809, a reception error packet detection unit 810, a packet storage unit 811, a packet restoration unit 812, a reproduction condition setting unit 813, wireless communication units 814 and 816, and a communication control unit 815. These components are basically the same as the portable television receiving terminal shown in FIG. 2 except for the following points.
[0075]
In the UI unit 809, in addition to the above-described setting of the required reproduction quality condition by the viewer, the restriction condition related to the communication cost generated when the transport packet is reacquired via the pay communication network is set. Can do. The set constraint condition is stored in the reproduction condition setting unit 813 together with the required reproduction quality condition setting information.
[0076]
There are two systems of wireless communication networks that can be used when connecting to the communication server: a communication system via the wireless communication unit 814 and a communication system via the wireless communication unit 816. Examples of such a wireless communication network system include a wireless LAN and a 3G mobile phone network. The communication control unit 815 selectively uses these communication systems in accordance with instructions from the system control / packet restoration control unit 808.
[0077]
The system control / packet restoration control unit 808 obtains the restriction condition regarding the communication fee set in the reproduction condition setting unit 813, and grasps the communication fee when performing the wireless communication by controlling the communication control unit 815. And accumulate. The grasp of the communication charge is performed based on charge information of a pay communication network contracted by the viewer, which is given in advance. In addition, when performing communication via the communication control unit 815, the system control / packet restoration control unit 808 recognizes a communication sequence that can be communicated, and for each communication sequence, a communication fee, a communication speed, a communication path It collects information such as the degree of congestion and determines the optimal communication path. Furthermore, the system control / packet restoration control unit 808 always manages the accumulated communication fee and performs communication control so as not to violate the set restriction information regarding the communication fee.
[0078]
Next, communication control by the system control / packet restoration control unit 808 will be specifically described. The basic operation for re-acquisition of the transport packet when the required reproduction quality condition is not satisfied is the same as in the case of the first embodiment described above. Only communication control by the system control / packet restoration control unit 808 will be described.
[0079]
The system control / packet restoration control unit 808 increases communication charges when the frequency of reception errors increases and the need to reacquire stream packets through communication increases, and communication preset by the viewer When it is predicted that the restriction condition regarding the fee cannot be satisfied, a predetermined warning message can be displayed on the display unit 805 to ask the viewer to make a determination. As an option at this time, for example,
(A) The reproduction operation that compensates the reproduction quality by communication is stopped, and the operation proceeds to the reproduction operation of the content as received.
(B) The communication charge limit is changed at the discretion of the viewer.
(C) Based on the viewer's judgment, the playback quality that has been set is relaxed, or the playback quality is forcibly shifted to a playback quality that can ensure the restriction on the communication fee.
(D) When reacquisition of stream packets in a wireless communication system with an expensive communication unit price is stopped and only error packet information is accumulated, and an environment that can realize an inexpensive communication environment is secured, stream packet re-sending Acquire.
Etc. are considered.
[0080]
When the viewer makes a selection input regarding the item (a) above via the UI unit 809, the system control / packet restoration control unit 808 stops re-acquisition of the transport packet and remains received. Transition to playback operation with broadcast content.
[0081]
When the viewer makes a selection input regarding the item (b) described above via the UI unit 809 and changes the communication fee limit, the system control / packet restoration control unit 808 displays the changed communication fee. The transport packet reacquisition operation is continued as long as the constraint is satisfied.
[0082]
When the viewer performs selection input related to the above item (c) via the UI unit 809 and relaxes the set playback quality, the system control / packet restoration control unit 808 performs the relaxed playback. The transport packet reacquisition operation is continued as long as the quality condition is satisfied. In addition, after the selection input related to the item (c) is performed, when an input indicating that the forced transition is performed is made, the system control / packet restoration control unit 808 is within a range in which the restriction on the communication charge can be secured. The reproduction quality of the transport packet is forcibly shifted to continue the transport packet reacquisition operation. In this case, when it becomes impossible to ensure the restriction on the communication charge, the operation shifts to the case of the above (a).
[0083]
When the viewer performs selection input related to the item (d) via the UI unit 809, the system control / packet restoration control unit 808 performs stream packet transmission in the current wireless communication system with a high communication unit price. Reacquisition is stopped, and only error packet information is stored in the packet storage unit 811. Then, when a wireless communication system capable of realizing an inexpensive communication environment is secured, the error packet information stored in the storage unit 811 is read, and an operation for reacquiring the transport packet corresponding to the error packet information is executed.
[0084]
When the selection input of any of the above (b) to (d) is performed, the communication control unit 815 follows the instruction from the system control / packet restoration control unit 808 from among the wireless communication units 814 and 816. Via the selected wireless communication unit, information related to the transport packet requesting reacquisition (for example, the packet ID of the transport packet requesting reacquisition) is transmitted to the communication server, and the transport packet is retransmitted. Request acquisition.
[0085]
Upon receiving the transport packet acquisition request, the communication server transmits the video stream packet or the audio stream packet broadcast by the requested transport packet to the portable television receiving terminal via the communication network. The reacquired video / audio stream packet transmitted via the wireless communication network is input to the packet storage unit 811 via the selected wireless communication unit and communication control unit 815.
[0086]
When the re-acquisition of the desired video / audio stream packet is completed, the system control / packet restoration control unit 808 and the video / audio stream packet normally received from the broadcasting station and the video re-acquired via the communication network / The audio stream packet and the packet storage unit 811 are read out and supplied to the packet restoration unit 812. The packet restoration unit 812 restores a video / audio stream packet that can ensure the required reproduction quality based on the input video / audio stream packet.
[0087]
Of the video / audio stream packets restored by the packet restoration unit 812, the video stream packet is decoded by the video decoder unit 804 and presented as a moving image on the display unit 805. On the other hand, the audio stream packet is decoded by the audio decoder unit 806 and reproduced by the headphone speaker unit 807.
[0088]
(Third embodiment)
In the digital broadcast receiving system of the first embodiment described above, when video / audio stream packets that could not be acquired due to reception errors are reacquired from the communication server to compensate for reproduction quality, the amount of packets to be reacquired is When there are many or when communication throughput is low and time is required, there is a possibility that the reacquisition packet cannot be acquired at the timing when the broadcast content should be presented. For this reason, when a video / audio stream packet is reacquired by communication, it is necessary to consider that some delay occurs. The digital broadcast receiving system of the present embodiment solves this problem, and is basically the same as the system configuration shown in FIG. 1 except that the configuration and operation of the mobile TV receiving terminal are different. It is. Here, only the configuration and operation of the portable television receiving terminal will be described.
[0089]
FIG. 7 shows a specific configuration of a portable television receiving terminal used in the digital broadcast receiving system of this embodiment. This portable television receiving terminal includes a digital tuner unit 901, a digital baseband demodulation unit 902, a TS-DeMUX unit 903, a video decoder unit 904, a display unit 905, an audio decoder unit 906, a head speaker unit 907, system control / packet restoration control. A unit 908, a UI unit 909, a reception error packet detection unit 910, a packet storage unit 911, a packet restoration unit 912, a reproduction condition setting unit 913, a wireless communication unit 914, a communication control unit 915, and a memory card 916. These components are basically the same as the portable television receiving terminal shown in FIG. 2 except for the following points.
[0090]
By providing the memory card 916, the system control / packet restoration control unit 908 selectively performs playback in one of the following recording modes (accumulation reception mode), chasing playback mode, and freeze playback mode. be able to.
[0091]
(A) Recording mode: A video / audio stream packet (restored by combining a packet received normally and a packet reacquired from communication) is stored in the memory card 916 and then reproduced.
[0092]
(B) Chasing playback mode: A memory card 916 that stores video / audio stream packets (restored by combining normally received packets and packets reacquired from communication) for a maximum value of a playback delay that is expected to occur in advance. Play back after accumulating in.
[0093]
(C) Freeze playback mode: Playback starts in real time, but each time a reception error occurs, a wait state (for example, screen freeze) occurs, and all video / audio stream packets to be reacquired are collected. Playback continues at the point.
[0094]
Each mode described above is executed when the viewer performs mode selection input on the UI unit 909.
[0095]
Hereinafter, the control using the above mode will be described in detail with reference to FIG.
[0096]
In a portable television receiving terminal, when a broadcast wave is received by an installed antenna, a transport packet is demodulated and extracted by a digital tuner unit 901 and a digital baseband demodulation unit 902. The demodulated transport packet is input to the TS-DeMUX unit 903, where the structure of the transport packet is analyzed, and predetermined broadcast content is extracted from the multiplexed packet structure.
[0097]
In the digital baseband unit 902 and TS-DeMUX unit 903, in the process of analyzing the configuration of the received packet, the received transport packet has been normally received or a reception error has occurred. Is identified. The reception error packet detector 910 systematically analyzes the reception status of the transport packet. The reception error analysis information obtained in this way is reported to the system control / packet restoration control unit 908.
[0098]
The system control / packet restoration control unit 908 that has received the report of the reception error analysis information predicts the reproduction quality when the video decoder unit 904 and the audio decoder unit 906 perform the stream reproduction as it is, and the prediction It is determined whether or not the result satisfies the required reproduction quality condition. If the system control / packet restoration control unit 908 determines that the prediction result does not satisfy the required reproduction quality condition, the system control / packet restoration control unit 908 accumulates the received video stream packet and audio stream packet in the packet accumulation unit 911 and requests reproduction. The minimum required transport packet to satisfy the quality condition is specified, and the specific information is passed to the communication control unit 915 to instruct reacquisition of data.
[0099]
In response to a reacquisition instruction from the system control / packet restoration control unit 908, the communication control unit 915 accesses a communication server existing on the network via the wireless communication unit 914, and reacquires the video / audio stream packet. Do. The minimum necessary data (re-acquired video / audio stream packet) transmitted via the wireless communication network is input to the packet storage unit 911 via the wireless communication unit 914 and the communication control unit 915.
[0100]
When the re-acquisition of the desired video / audio stream packet is completed, the system control / packet restoration control unit 908 receives the video / audio stream packet normally received from the broadcasting station and the video re-acquired via the communication network. / Audio stream packets are read from the packet storage unit 911 and supplied to the packet restoration unit 812. The packet restoration unit 812 restores a video / audio stream packet that can ensure the required reproduction quality based on the input video / audio stream packet. The stream packet restored by the packet restoration control unit 912 is stored in the memory card 916.
[0101]
The video / audio stream packet stored in the memory card 916 is read at a predetermined timing, the video stream packet is decoded by the video decoder unit 904 and presented as a moving image on the display unit 905, and the audio stream packet is audio The data is decoded by the decoder unit 906 and reproduced by the headphone speaker unit 907.
[0102]
In the above-described series of playback operations, when the viewer selects and inputs “(a) recording mode” in the UI unit 909, the packet restoration control unit 912 restores the program content (broadcast content) designated for recording, for example. All the stream packets are stored (recorded) in the memory card 916. Then, the stream packets stored in the memory card 916 are sequentially read and reproduced under the control of the system control / packet restoration control unit 908. In this case, the viewer can perform time shift viewing. Moreover, it will be freed from care for the deterioration of the reception environment during recording.
[0103]
In addition, when the viewer selects and inputs “(b) chasing playback mode” in the UI unit 909, a predetermined number of stream packets restored by the packet restoration control unit 912 regarding the designated program content (broadcast content) are stored. Reproduction is performed after the amount corresponding to the reproduction delay amount is stored (recorded) in the memory card 916. In this case, viewing is started after a certain delay from the broadcast timing. Also, if the viewing is within the assumed reception environment, the program can be continuously viewed with the requested reproduction quality.
[0104]
When the viewer selects and inputs “(c) freeze playback mode” in the UI unit 909, the stream packet restored by the packet restoration control unit 912 relating to the designated program content (broadcast content) is reproduced in real time. . In this case, real-time viewing can be performed if the reception environment is stable. Further, when the reception environment is temporarily deteriorated, the mode shifts to “(b) chasing playback mode” from that point. Specifically, when a reception error occurs during real-time playback, the playback is temporarily stopped, and at the same time, recording of the transport packet received after the stop is started to restore the reception error from the communication server. To get the minimum data needed. Thereby, the content at the moment when the reception error occurs can also be viewed.
[0105]
In addition to the reproduction in the above-described mode, the reproduction that occurs between the occurrence of the reception error and the time when the system control / packet restoration control unit 908 obtains the minimum necessary data for restoring the reception error from the communication server. It is determined whether or not a reproduction delay condition capable of satisfying a preset required reproduction quality condition can be secured, and when the determination is negative, a predetermined message is displayed on the display unit 905 or the headphone speaker unit. It is also possible to output from 907. The predetermined message may be a warning message indicating that the required playback quality condition cannot be satisfied, and prompts the viewer to determine whether or not to continue playback of the broadcast content or to change the required playback quality condition. May be the message.
[0106]
In the digital broadcast receiving system of each embodiment described above, a series of operations in each functional block in the portable television receiving terminal and the communication server can be basically realized by software by a program. In this case, the program is stored in advance in a storage device mounted on the portable television receiving terminal and the communication server, or is provided on a recording medium such as a CD-ROM. In either case, the portable television receiving terminal and the computer of the communication server execute a series of operations according to the program.
[0107]
【The invention's effect】
As described above, according to the present invention, for the broadcast content (transport packet) that could not be received by the direct reception of the broadcast wave, the minimum required transport packet for ensuring the preset reproduction quality is used. Since the data is acquired from the communication server and played back, the communication charge for re-acquiring data from the communication server can be reduced and the communication time is shortened compared to the conventional system. There is an effect that the waiting time can be shortened.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a digital broadcast receiving system according to a first embodiment of the present invention.
2 is a block diagram showing a specific configuration of a portable television receiving terminal of the digital broadcast receiving system shown in FIG.
3 is a conceptual diagram of a format of a transport packet used in the digital broadcast receiving system shown in FIG.
4 is a block diagram showing a specific configuration of a communication server of the digital broadcast receiving system shown in FIG. 1. FIG.
FIG. 5 is a conceptual diagram of a format of a communication packet used in the digital broadcast receiving system shown in FIG.
FIG. 6 is a block diagram showing a specific configuration of a portable television receiving terminal used in the digital broadcast receiving system according to the second embodiment of the present invention.
FIG. 7 is a block diagram showing a specific configuration of a portable television receiving terminal used in a digital broadcast receiving system according to a third embodiment of the present invention.
[Explanation of symbols]
301 broadcast station
302 Broadcast content
303 broadcast wave
304 Transport packet
305 Mobile tele unit receiving terminal
306 Wireless carrier base station
307 Hot spot AP
308 Communication network
309 Communication server
310 Broadcast Content Database
311 Wireless communication
312 Communication packet
401, 801, 901 Digital tuner section
402, 802, 902 Digital baseband demodulator
403, 803, 903 TS-DeMUX part
404, 804, 904 Video decoder section
405, 805, 905 Display unit
406, 806, 906 Audio decoder section
407, 807, 907 Headphone speaker unit
408, 808, 908 System control / packet restoration control unit
409, 809, 909 UI part
410, 810, 910 Reception error packet detector
411, 811, 911 Packet storage unit
412, 812, 912 Packet restoration unit
413, 813, 913 Playback condition setting section
414, 814, 816, 914 Wireless communication unit
415, 815, 915 Communication control unit
501 Outbound transport packet
502 Transport packet ID
503 Video packet / audio packet identifier
504 parameters
505, 704 payload
506 Received transport packet
507 Reception error flag
601 Network I / F part
602 communication control unit
603 System control unit
604 Packet request processing unit
605 content determination unit
608 Playback condition storage
916 Memory card
701 Communication packet ID
702 Request command
703 Number of parameters

Claims (33)

A broadcasting station that broadcasts a transport packet by dividing a broadcast content into packets that are information units, and a digital broadcast wave;
A portable television receiving terminal for receiving digital broadcast waves from the broadcasting station;
A communication server comprising a broadcast content database in which information relating to the broadcast content is stored in advance, and capable of mutual communication with the portable television receiving terminal;
If a reception error occurs in the transport packet received by the digital broadcast wave, the portable television receiving terminal predicts the degree of reproduction quality when reproduction is performed with the reception error occurring, and the prediction result is viewed. Requesting the communication server to reacquire the data in which the reception error has occurred, if the reproduction quality condition preset by the user is not satisfied,
The communication server reads, from the broadcast content database, the minimum necessary data for restoring the data in which the reception error has occurred that can satisfy the reproduction quality condition in response to a request for re-acquisition of the data. To the mobile TV receiver terminal ,
The line for connecting the portable television receiving terminal and the communication server is a paid communication line,
Whether the mobile TV receiving terminal integrates the communication fee generated on the pay communication line when acquiring the necessary minimum data, and whether the integration result falls within a preset communication fee limit range. A digital broadcast receiving system that predicts whether or not and performs a predetermined operation when the prediction result is negative . The digital broadcast receiving system according to claim 1, wherein the predetermined operation is outputting a predetermined message . The digital broadcast receiving system according to claim 2, wherein the predetermined message is a warning message indicating that the integration result exceeds a limit range of the communication fee . 3. The digital broadcast receiving system according to claim 2, wherein the predetermined message is a message for prompting a viewer to change the reproduction quality condition or the communication charge limit range . 2. The digital broadcast receiving system according to claim 1, wherein the predetermined operation is to forcibly change the content of the reproduction quality condition so that communication within a limited range of the communication fee is possible. . A broadcasting station that broadcasts a transport packet by dividing a broadcast content into packets that are information units, and a digital broadcast wave;
A portable television receiving terminal for receiving digital broadcast waves from the broadcasting station;
A communication server comprising a broadcast content database in which information relating to the broadcast content is stored in advance, and capable of mutual communication with the portable television receiving terminal;
If a reception error occurs in the transport packet received by the digital broadcast wave, the portable television receiving terminal predicts the degree of reproduction quality when reproduction is performed with the reception error occurring, and the prediction result is viewed. Requesting the communication server to reacquire the data in which the reception error has occurred, if the reproduction quality condition preset by the user is not satisfied,
The communication server reads, from the broadcast content database, the minimum necessary data for restoring the data in which the reception error has occurred that can satisfy the reproduction quality condition in response to a request for re-acquisition of the data. To the mobile TV receiver terminal,
The portable television receiving terminal reproduces the transport packet received by the digital broadcast wave in real time, and when the reception error occurs during the reproduction, the reproduction is temporarily stopped and received after the stop. A digital broadcast receiving system characterized in that recording of a transport packet to be performed is started and the minimum necessary data for restoring the reception error is acquired from the communication server . In the portable television receiving terminal, a reproduction delay that occurs between the occurrence of the reception error and the acquisition of the minimum necessary data for recovering the reception error from the communication server can satisfy the reproduction quality condition. 7. The digital broadcast receiving system according to claim 6, wherein it is determined whether or not a reproduction delay condition can be secured , and when the determination is negative, a predetermined message is output . A broadcasting station that broadcasts a transport packet by dividing a broadcast content into packets that are information units, and a digital broadcast wave;
A portable television receiving terminal for receiving digital broadcast waves from the broadcasting station;
A communication server comprising a broadcast content database in which information relating to the broadcast content is stored in advance, and capable of mutual communication with the portable television receiving terminal;
If a reception error occurs in the transport packet received by the digital broadcast wave, the portable television receiving terminal predicts the degree of reproduction quality when reproduction is performed with the reception error occurring, and the prediction result is viewed. Requesting the communication server to reacquire the data in which the reception error has occurred, if the reproduction quality condition preset by the user is not satisfied,
The communication server reads, from the broadcast content database, the minimum necessary data for restoring the data in which the reception error has occurred that can satisfy the reproduction quality condition in response to a request for re-acquisition of the data. To the mobile TV receiver terminal,
The mobile TV receiving terminal performs playback from a state in which all transport packets related to the broadcast content are stored,
In the portable television receiving terminal, a reproduction delay that occurs between the occurrence of the reception error and the acquisition of the minimum necessary data for recovering the reception error from the communication server can satisfy the reproduction quality condition. A digital broadcast receiving system characterized in that it is determined whether or not a reproduction delay condition can be ensured, and a predetermined message is output when the determination is negative . A broadcasting station that broadcasts a transport packet by dividing a broadcast content into packets that are information units, and a digital broadcast wave;
A portable television receiving terminal for receiving digital broadcast waves from the broadcasting station;
A communication server comprising a broadcast content database in which information relating to the broadcast content is stored in advance, and capable of mutual communication with the portable television receiving terminal;
If a reception error occurs in the transport packet received by the digital broadcast wave, the portable television receiving terminal predicts the degree of reproduction quality when reproduction is performed with the reception error occurring, and the prediction result is viewed. Requesting the communication server to reacquire the data in which the reception error has occurred, if the reproduction quality condition preset by the user is not satisfied,
The communication server reads, from the broadcast content database, the minimum necessary data for restoring the data in which the reception error has occurred that can satisfy the reproduction quality condition in response to a request for re-acquisition of the data. To the mobile TV receiver terminal,
The portable television receiving terminal performs reproduction from a state in which an amount corresponding to a predetermined reproduction delay amount of a transport packet related to the broadcast content is accumulated,
In the portable television receiving terminal, a reproduction delay that occurs between the occurrence of the reception error and the acquisition of the minimum necessary data for recovering the reception error from the communication server can satisfy the reproduction quality condition. A digital broadcast receiving system characterized in that it is determined whether or not a reproduction delay condition can be ensured, and a predetermined message is output when the determination is negative . The digital broadcast receiving system according to any one of claims 7 to 9, wherein the predetermined message is a warning message indicating that the reproduction quality condition cannot be satisfied . 10. The message according to claim 7, wherein the predetermined message is a message for prompting a viewer to determine whether or not to continue playback of the broadcast content or to change the playback quality condition. The digital broadcast receiving system described in 1 . Receiving means for receiving a transport packet obtained by breaking broadcast content into packets that are information units;
  Communication means for performing mutual communication with a communication server including a broadcast content database in which information related to the broadcast content is stored in advance;
  Error packet analysis means for analyzing whether or not a reception error has occurred with respect to the transport packet received by the reception means;
  When the error packet analysis means reports that the reception error has occurred, the degree of reproduction quality when reproduction is performed with the reception error occurring is predicted, and the prediction result is preset by the viewer Only when the reproduction quality condition is not satisfied, the minimum necessary data for restoring the transport packet in which the reception error has occurred and which can satisfy the reproduction quality condition can be transmitted via the communication means. Control means to obtain from the server,
  The line for connecting the communication means and the communication server is a paid communication line,
  The control means integrates communication charges generated in the pay communication line when acquiring the necessary minimum data, and whether the integration result falls within a preset communication charge limit range. And a predetermined operation is performed when the result of the prediction is negative. A display means;
  13. The portable television receiving terminal according to claim 12, wherein the predetermined operation is outputting a predetermined message to the display means. 14. The portable television receiving terminal according to claim 13, wherein the predetermined message is a warning message indicating that the integration result exceeds a limit range of the communication fee. 14. The portable television receiving terminal according to claim 13, wherein the predetermined message is a message for urging a viewer to change the reproduction quality condition or the communication charge limit range. 13. The portable television receiving terminal according to claim 12, wherein the predetermined operation is to forcibly change the content of the reproduction quality condition so that communication within a limited range of the communication fee is possible. . Receiving means for receiving a transport packet obtained by breaking broadcast content into packets that are information units;
  Communication means for performing mutual communication with a communication server including a broadcast content database in which information related to the broadcast content is stored in advance;
  Error packet analysis means for analyzing whether or not a reception error has occurred with respect to the transport packet received by the reception means;
  When the error packet analysis means reports that the reception error has occurred, the degree of reproduction quality when reproduction is performed with the reception error occurring is predicted, and the prediction result is preset by the viewer Only when the reproduction quality condition is not satisfied, the minimum necessary data for restoring the transport packet in which the reception error has occurred and which can satisfy the reproduction quality condition can be transmitted via the communication means. Control means to obtain from the server,
  The control means reproduces the received transport packet in real time by a reproducing means for reproducing, and if the reception error occurs during the reproduction, the reproduction is temporarily stopped and received after the stop. A portable television receiving terminal, which starts recording a transport packet and obtains the minimum necessary data for restoring the reception error from the communication server. A display means;
  The control means is a reproduction delay in which a reproduction delay that occurs between the occurrence of the reception error and the acquisition of the minimum necessary data for restoring the reception error from the communication server satisfies the reproduction quality condition. 18. The portable television receiving terminal according to claim 17, wherein it is determined whether or not a condition can be secured, and when the determination is negative, a predetermined message is output to the display means. Receiving means for receiving a transport packet obtained by breaking broadcast content into packets that are information units;
  Communication means for performing mutual communication with a communication server including a broadcast content database in which information related to the broadcast content is stored in advance;
  Error packet analysis means for analyzing whether or not a reception error has occurred with respect to the transport packet received by the reception means;
  When the error packet analysis means reports that the reception error has occurred, the degree of reproduction quality when reproduction is performed with the reception error occurring is predicted, and the prediction result is preset by the viewer Only when the reproduction quality condition is not satisfied, the minimum necessary data for restoring the transport packet in which the reception error has occurred and which can satisfy the reproduction quality condition can be transmitted via the communication means. Control means to obtain from the server,
  A storage means;
  The control means accumulates all the transport packets related to the broadcast content in the storage means, and sequentially reproduces the accumulated data to reproduce the transport packets,
  A display means;
  The control means is a reproduction delay in which a reproduction delay that occurs between the occurrence of the reception error and the acquisition of the minimum necessary data for restoring the reception error from the communication server satisfies the reproduction quality condition. A portable television receiver terminal that determines whether or not conditions can be secured and outputs a predetermined message to the display means when the determination is negative. Receiving means for receiving a transport packet obtained by breaking broadcast content into packets that are information units;
  Communication means for performing mutual communication with a communication server including a broadcast content database in which information related to the broadcast content is stored in advance;
  Error packet analysis means for analyzing whether or not a reception error has occurred with respect to the transport packet received by the reception means;
  When the error packet analysis means reports that the reception error has occurred, the degree of reproduction quality when reproduction is performed with the reception error occurring is predicted, and the prediction result is preset by the viewer Only when the reproduction quality condition is not satisfied, the minimum necessary data for restoring the transport packet in which the reception error has occurred and which can satisfy the reproduction quality condition can be transmitted via the communication means. Control means to obtain from the server,
  A storage means;
  The control means accumulates the transport packet related to the broadcast content in the storage means by a predetermined reproduction delay amount, sequentially reproduces the accumulated data and reproduces it by reproducing means for reproducing the transport packet,
  A display means;
  The control means is a reproduction delay in which a reproduction delay that occurs between the occurrence of the reception error and the acquisition of the minimum necessary data for restoring the reception error from the communication server satisfies the reproduction quality condition. A portable television receiver terminal that determines whether or not conditions can be secured and outputs a predetermined message to the display means when the determination is negative. 21. The portable television receiving terminal according to claim 18, wherein the predetermined message is a warning message indicating that the reproduction quality condition cannot be satisfied. 21. The message according to claim 18, wherein the predetermined message is a message for prompting a viewer to determine whether or not to continue the reproduction of the broadcast content or to change the reproduction quality condition. A portable TV receiving terminal described in 1. A broadcasting station that broadcasts a transport packet obtained by dividing broadcast content into packets that are information units, and receives a digital broadcasting wave from the broadcasting station. A digital broadcast receiving method performed in a system having a portable television receiving terminal and a communication server capable of mutual communication with the portable television receiving terminal, comprising a broadcast content database in which information related to the broadcast content is stored in advance. ,
  When the mobile TV receiving terminal generates a reception error in the transport packet received by the digital broadcast wave, the mobile TV receiving terminal predicts the degree of reproduction quality when reproducing with the reception error occurring, and the prediction result is viewed. Requesting re-acquisition of the data causing the reception error to the communication server when the reproduction quality condition preset by the user is not satisfied,
  The communication server reads from the broadcast content database the minimum necessary data for restoring the data in which the reception error has occurred, which can satisfy the reproduction quality condition in response to a request for re-acquisition of the data. Transmitting to the portable television receiving terminal;
  The line for connecting the portable television receiving terminal and the communication server is a paid communication line,
  Whether the mobile TV receiving terminal integrates the communication fee generated on the paid communication line when acquiring the necessary minimum data, and whether the integration result falls within a preset communication fee limit range A digital broadcast receiving method comprising: predicting whether or not and performing a predetermined operation when the prediction result is negative. The digital broadcast receiving method according to claim 23, wherein the predetermined operation is outputting a predetermined message. The digital broadcast receiving method according to claim 24, wherein the predetermined message is a warning message indicating that the integration result exceeds a limit range of the communication fee. 25. The digital broadcast receiving method according to claim 24, wherein the predetermined message is a message for urging a viewer to change the reproduction quality condition or the communication charge limit range. 24. The digital broadcast receiving method according to claim 23, wherein the predetermined operation is to forcibly change the content of the reproduction quality condition so that communication within a limited range of the communication fee is possible. . A broadcast station that broadcasts a transport packet obtained by decomposing broadcast content into packets that are information units using digital broadcast waves, a portable television receiver that receives digital broadcast waves from the broadcast station, and information related to the broadcast content are stored in advance A digital broadcast receiving method performed in a system having a broadcast content database and a communication server capable of mutual communication with the portable television receiving terminal,
  When the mobile TV receiving terminal generates a reception error in the transport packet received by the digital broadcast wave, the mobile TV receiving terminal predicts the degree of reproduction quality when reproducing with the reception error occurring, and the prediction result is viewed. Requesting re-acquisition of the data causing the reception error to the communication server when the reproduction quality condition preset by the user is not satisfied,
  The communication server reads from the broadcast content database the minimum necessary data for restoring the data in which the reception error has occurred, which can satisfy the reproduction quality condition in response to a request for re-acquisition of the data. Transmitting to the portable television receiving terminal;
  The portable television receiving terminal reproduces the transport packet received by the digital broadcast wave in real time, and when the reception error occurs during the reproduction, the reproduction is temporarily stopped and received after the stop. A method for receiving a digital broadcast, comprising: starting recording of a transport packet to be acquired and obtaining a minimum amount of data necessary for restoring the reception error from the communication server. Reproduction that occurs between the occurrence of the reception error and the time when the portable television receiving terminal acquires from the communication server the minimum data necessary to restore the reception error The method includes a step of determining whether or not a reproduction delay condition capable of satisfying the reproduction quality condition is ensured, and outputting a predetermined message when the determination is negative. 28. The digital broadcast receiving method according to 28.   A broadcast station that broadcasts a transport packet obtained by decomposing broadcast content into packets that are information units using digital broadcast waves, a portable television receiver that receives digital broadcast waves from the broadcast station, and information related to the broadcast content are stored in advance A digital broadcast receiving method performed in a system having a broadcast content database and a communication server capable of mutual communication with the portable television receiving terminal,
  When the mobile TV receiving terminal generates a reception error in the transport packet received by the digital broadcast wave, the mobile TV receiving terminal predicts the degree of reproduction quality when reproducing with the reception error occurring, and the prediction result is viewed. Requesting re-acquisition of the data causing the reception error to the communication server when the reproduction quality condition preset by the user is not satisfied,
  The communication server reads from the broadcast content database the minimum necessary data for restoring the data in which the reception error has occurred, which can satisfy the reproduction quality condition in response to a request for re-acquisition of the data. Transmitting to the portable television receiving terminal;
  The portable television receiving terminal performs playback from a state in which all transport packets related to the broadcast content are stored;
  A reproduction delay that occurs between the time when the portable television receiving terminal acquires the minimum necessary data for restoring the reception error from the occurrence of the reception error from the communication server can satisfy the reproduction quality condition. A digital broadcast receiving method, comprising: determining whether or not a reproduction delay condition can be ensured, and outputting a predetermined message when the determination is negative. A broadcast station that broadcasts a transport packet obtained by decomposing broadcast content into packets that are information units using digital broadcast waves, a portable television receiver that receives digital broadcast waves from the broadcast station, and information related to the broadcast content are stored in advance A digital broadcast receiving method performed in a system having a broadcast content database and a communication server capable of mutual communication with the portable television receiving terminal,
  When the mobile TV receiving terminal generates a reception error in the transport packet received by the digital broadcast wave, the mobile TV receiving terminal predicts the degree of reproduction quality when reproducing with the reception error occurring, and the prediction result is viewed. Requesting re-acquisition of the data causing the reception error to the communication server when the reproduction quality condition preset by the user is not satisfied,
  The communication server reads from the broadcast content database the minimum necessary data for restoring the data in which the reception error has occurred, which can satisfy the reproduction quality condition in response to a request for re-acquisition of the data. Transmitting to the portable television receiving terminal;
  The portable television receiving terminal performs reproduction from a state in which an amount corresponding to a predetermined reproduction delay amount of a transport packet related to the broadcast content is accumulated;
  A reproduction delay that occurs between the time when the portable television receiving terminal acquires the minimum necessary data for restoring the reception error from the occurrence of the reception error from the communication server can satisfy the reproduction quality condition. A digital broadcast receiving method, comprising: determining whether or not a reproduction delay condition can be ensured, and outputting a predetermined message when the determination is negative. 32. The digital broadcast receiving method according to claim 29, wherein the predetermined message is a warning message indicating that the reproduction quality condition cannot be satisfied. The predetermined message is a message for prompting a viewer to determine whether or not to continue playback of the broadcast content or to change the playback quality condition. 32. The digital broadcast receiving method according to any one of claims 29 to 31.

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