JP4994732B2 - Digital TV broadcast wave transmitter - Google Patents

Description

  The present invention relates to a digital television broadcast wave transmission device and a broadcast wave transmission method for transmitting a broadcast wave of digital television, and more particularly to control during emergency broadcast transmission in digital television broadcast.

  In television (TV) reception on a mobile phone, a portable small television, etc., analog broadcasting has a problem that a reproduced image is disturbed because a reception radio wave condition is unstable. For this reason, digital broadcasting systems are being adopted in these portable devices because of the advantage that stable TV reception and playback are possible.

In the digital broadcasting system used for these portable devices, a CODEC system that enables low-bit-rate and high-efficiency encoded transmission is employed in order to reduce the reproduction processing load when moving images are transmitted. For this reason, data compression is performed not only within a frame (one screen) but also between a plurality of frames, and it is necessary to perform data decompression between a plurality of frames even during reproduction.
On the other hand, these devices have been studied for use as emergency broadcast receiving terminals in an emergency such as an earthquake or a disaster by making use of their portability (see Non-Patent Document 1).

  FIG. 8 shows a block diagram of a conventional emergency TV compatible digital TV broadcast wave transmitting apparatus. Hereinafter, the operation of the conventional digital TV broadcast wave transmitting apparatus will be briefly described with reference to FIG.

  When emergency broadcasting is started when an emergency such as an earthquake or disaster occurs, moving image information is input from the video signal input unit 801 and audio information is input from the audio signal input unit 803 in analog form. Still image information is input from the data input unit 805. The input video signal and audio signal are digitized by the video signal input unit 801 and the audio signal input unit 803, respectively, and then compressed by the video signal processing unit (V_ENC) 802 and the audio signal processing unit (A_ENC) 804. It is converted into a video signal and a compressed audio signal.

  At the same time, an emergency broadcast instruction signal a instructing switching to the emergency broadcast enters the emergency broadcast switching unit 806, the state inside the apparatus is switched to the emergency broadcast support, and the emergency broadcast notification flag b is output from the emergency broadcast notification unit 807. Is done.

  These four types of signals are multiplexed by a signal multiplexing unit (MAX) 808 and then modulated by a modulation signal transmission unit 809 to become an RF signal (broadcast signal), which is transmitted from an antenna 810 as a broadcast wave.

  The broadcast wave is reproduced by the following process on the portable receiver side. Although not shown in the figure, a tuner extracts a multiplexed signal from the emergency broadcast channel and detects that there is an emergency broadcast. Thus, an emergency broadcast is received by automatically switching channels, and data such as a video signal, an audio signal, and a still image are separated from the multiplexed signal by a signal separation unit (DEMAX). The video signal is decoded by the video signal processing unit (V_DEC). However, since the still image information is transmitted as data, it must be reproduced by the data signal processing unit.

  Thereafter, both are converted into analog video signals and displayed as video on the video signal display unit. Similarly, the audio signal is decoded by the audio signal processing unit (A_DEC) to become an analog audio signal, and the audio is reproduced by the audio signal output unit.

In this way, provision of various information such as condemnation information at the time of disaster is realized as a receiving terminal for emergency broadcasting.
"Technical data for digital terrestrial television broadcast operation ARIB TR-B14" (Radio industry)

  However, in the above-described conventional broadcasting system, it is necessary to prepare a special broadcast (still image data multiplexing), and to provide a circuit that can cope with it, and there is a case where necessary information cannot be sufficiently transmitted in an emergency. It was.

  Specifically, as described above, in a normal digital TV broadcast for portable devices, the CODEC method capable of low bit rate and high efficiency transmission is adopted. Therefore, in the video signal processing unit (V_ENC), Data compression is performed not only within a frame (one screen) but also between a plurality of frames.

  For emergency broadcasts, still images such as maps and characters are often copied and broadcast with a camera. However, if an image created by the CODEC method is received, maps and characters that are important information in an emergency are received. Still image information will be compressed and transmitted as a moving image, and the fineness of the inter-frame data processing at the time of compression changes due to minute differences in input signals from moment to moment, so the content of still images may not be perceived clearly. is there. In addition, even when broadcast radio waves from a broadcasting station cannot be transmitted stably at the time of a disaster, a clear video may not be displayed due to lack of information because processing is performed between frames.

  In order to avoid these, it is necessary to have a broadcasting wave mechanism that transmits still image information only for emergency broadcasting and broadcasting equipment that supports that mechanism, and mobile devices also support these mechanisms and broadcasting. It is necessary to install the circuit in advance.

  The present invention solves the above-described problem, does not require a special mechanism for transmitting still image information for emergency broadcasting, and is required for emergency broadcasting on the receiver side using a normal video playback circuit. An object of the present invention is to provide a broadcast wave transmission apparatus and a transmission method capable of realizing high-definition reproduction of still image information.

To achieve the above object, a digital TV broadcast wave transmitting apparatus according to the present invention comprises a video signal input unit that digitizes an analog video signal to create a digital video signal ,
A video input control unit that captures a digital video signal from the video signal input unit based on a video switching signal indicating a switching timing from a moving image to a still image or a switching timing between still images, and stores the digital video signal in a video data memory;
A video signal processor for converting the compressed video signal is a video signal compression encoding digital video signals stored in the image data memory,
In response to an emergency broadcast instruction signal input from the outside, an emergency broadcast notification unit that outputs a flag to notify that the emergency broadcast has been switched,
It consists of the frame data of the previous SL plurality of predictive picture associated from compressed video signal generated by video signal processing unit to it and the frame data of one reference picture in unit for performing compression coding of a video signal A video stream control unit that extracts only the first VOB from the VOB and stores it in the first memory, and repeatedly reads out and outputs the compressed video signal stored in the first memory ;
A signal multiplexing unit for converting the flag output from the previous SL-compressed video signal and the emergency broadcast notification unit output from the video stream control unit in the multiplexed signal,
And a modulated signal transmitting unit that modulates the signal multiplexed by the signal multiplexing unit into a signal that can be transmitted as a broadcast wave and outputs the modulated signal to an antenna.

  In the digital television broadcast wave transmitting apparatus according to the present invention, the encoding control unit instructs the video stream control unit to extract a video signal included in the frame during the predetermined period when a video switching signal is input from the outside. Is preferred.

  In the digital television broadcast wave transmitting apparatus of the present invention, the encoding control unit selects a compressed video signal of each frame included in the first VOB from the compressed video signal of the still image generated by the video signal processing unit, and You may make it output to a video stream control part.

  Alternatively, the encoding control unit has the highest bit rate of the I frame from the compressed video signal of the still image generated by the video signal processing unit, and the VOB whose frame other than the I frame is Null data (no data) The video signal of each frame may be selected and output to the video stream control unit.

  Further, the encoding control unit selects a video signal of each frame of VOB having the highest bit rate from the compressed video signal of the still image generated by the video signal processing unit and outputs the selected video signal to the video stream control unit. May be.

In the digital television broadcast wave transmitting device of the present invention,
The second memory for storing the digital audio signal output from the audio signal input unit, and the digital audio signal output from either the audio signal input unit or the second memory to the audio signal processing unit A voice input control unit for selecting and outputting;
The audio input control unit stores a digital audio signal output from the audio signal input unit in the second memory when an audio switching signal is input from the outside, and a compressed video from the first memory. It is preferable that the digital audio signal is read from the second memory at a timing synchronized with the signal reading.

  At this time, the encoding control unit may initialize a compression encoding parameter in the video signal processing unit when a reset instruction signal is input from the outside.

  According to the digital TV broadcast wave transmitting apparatus and the transmitting method of the present invention, a still image required in an emergency using an ordinary moving image reproducing circuit by appropriately controlling reproduction of a compression-encoded video signal. Broadcast waves capable of reproducing information with high definition can be transmitted. For this reason, it is not necessary to provide a dedicated circuit for reproducing still picture information of the emergency broadcast on the receiver side, and the emergency broadcast can be received by a normal broadcast reproduction circuit.

  Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1)
FIG. 1 is a block diagram of a digital TV broadcast wave transmission measure for emergency broadcast according to Embodiment 1 of the present invention.

  In FIG. 1, reference numeral 101 denotes a video signal input unit for digitizing an analog video signal. Reference numeral 102 denotes a video input control unit that performs control to pass a digitized video input signal to the video signal processing unit (V_ENC) 105 in the next stage. When the analog video signal is a still image, a video that notifies the switching timing is provided. In response to the switching signal c, on / off of the digital video signal is controlled. Reference numeral 103 denotes a video data memory that temporarily stores a digitized video signal.

  Reference numeral 104 denotes a video signal processing unit (V_ENC) that encodes the digital video signal stored in the video data memory 103 into a video signal that has been compression-coded for each frame. When a still image is input as an emergency broadcast video signal to the video signal input unit 101, 105 extracts only the first VOB from the compressed video signal encoded by the video signal processing unit (V_ENC) 104. This is a video stream control unit that stores in the VOB memory 106 and repeatedly reads out from the leading VOB memory 106 and sends it to the next signal multiplexing unit (MAX) 112. An encoding control unit 107 controls the video input control unit 102, the video signal processing unit 104, and the video stream control unit 105 in accordance with a switching signal from an emergency broadcast switching unit 110 described later. Are instructed and managed.

  Next, 108 is an audio signal input unit that digitizes an analog audio signal, and 109 is an audio signal processing unit (A_ENC) that converts the digitized audio signal into a compression-encoded audio signal. 110 is an emergency broadcast switching unit that receives an emergency broadcast instruction signal a inserted in the event of an emergency such as a disaster and switches the state inside the device, and 111 is an emergency broadcast notification indicating that the emergency broadcast has been switched to This is an emergency broadcast notification unit that sends the flag b to the signal multiplexing unit 112.

  A signal multiplexing unit (MAX) 112 multiplexes the compressed video signal from the video stream control unit 105, the compressed audio signal from the audio signal processing unit (A_ENC) 109, and the emergency broadcast notification flag b from the emergency broadcast notification unit 111. , 113 is a modulation signal transmission unit that modulates the signal multiplexed by the signal multiplexing unit 112 into a signal that can be transmitted as a broadcast wave and transmits the signal from the antenna 114.

  In addition to the conventional configuration shown in FIG. 8, the digital TV broadcast wave transmitting apparatus according to the present embodiment performs video input control for performing control when a digitized video signal is passed to the video signal processing unit 104 at the next stage. Unit 102, video data memory 103 for temporarily storing data from video input control unit 102, encoding control for instructing and managing each unit for still image processing in emergency by a switching signal from emergency broadcast switching unit 110 Unit 107, the head VOB memory 106 for storing the head VOB when the video becomes a still image due to the emergency broadcast, the head VOB is stored in the head VOB memory 106 according to the instruction of the encoding control unit 107, and thereafter The video stream control unit 105 that repeatedly transmits this leading VOB to the signal multiplexing unit 112 at the next stage is provided.

  Prior to the description of the operation of the digital TV broadcast wave transmitting apparatus of FIG. 1, the principle of the present invention will be described with reference to FIG.

  FIGS. 2A and 2B show the frame structure of a video signal by the CODEC system transmitted from a broadcasting station in time series. When compressing and encoding a video signal, the processing is performed in the frame order shown in FIG. 2B, and when multiplexing, the processing shown in FIG. 2A is performed according to the convenience of processing on the receiver side. Rearranged in frame order.

  The video signal is composed of data of any one of an I picture 201, a P picture 202, and a B picture 203 that are compression-coded data corresponding to each frame of a television screen or the like. Among these, the I picture 201 as a reference picture is called an intra-frame coded image, and is independent of the preceding and succeeding pictures. On the other hand, the P picture 202 is called an inter-frame forward predictive encoded image and is obtained by encoding the I picture 201 by compressing the data amount by incorporating motion compensation. The B picture 203 is called a bi-predictive encoded image and is an image inserted between the I picture 201 and the P picture 202. The B picture 203 is created based on the information of the I picture 201 and the P picture 202, and has a data amount. Is being compressed.

  A video signal for 1 VOB, which is a unit for compressing and encoding a video signal, includes frame data of one reference picture (I picture) and frame data of a plurality of predicted pictures (P picture, B picture) associated therewith. Consists of.

  When the video signal processing unit 104 compresses and encodes the video signal, the I picture 201 is encoded as it is, and the P picture 202 is forwarded based on the two video data of the I picture 201 and the P picture 202. Prediction encoding processing is performed, and bi-directional encoding processing is performed on the B picture 203 based on the three video data of the I picture 201, the P picture 202, and the B picture 203. Since the specific encoding process is widely known, its description is omitted here.

  On the other hand, FIG. 2 (C) shows the transition of the data amount of the image included in the video signal, the upper row is the arrangement of each picture, and the middle row is a Q value which is a parameter indicating how far the fineness of the image is captured. The lower row is the accumulated value of data amount (indicated by the mesh in the figure).

  An I picture is created for each VOB, and then P and B pictures are created alternately. As a limitation on the amount of information, there is a condition that the total sum 204 of accumulated data must not exceed the maximum bit rate 205 from one I picture to the next I picture, that is, in one VOB. 1. If the total sum of accumulated data exceeds the maximum bit rate 205, the information amount of the frames up to the next VOB will be 0 (Null).

  In each frame and VOB, prediction / compression is performed with reference to past Q values and information amount transitions in order to keep compression encoding optimal. For example, the value of Q20 in the parameter Q changes depending on the situation of Q10 and the previous VOB. Therefore, as shown in FIG. 2C, the I picture (211, 212, 213) every time, the information amount of the entire VOB is different, and the I picture immediately after the VOB exceeding the maximum bit rate 205 (213) Will reduce the amount of information.

  In the present embodiment, still image data selected by the video input control unit 102 is compression-coded by the video signal processing unit 104 to improve the definition of the I picture as much as possible, and the subsequent compression processing is not performed. In addition, a plurality of frames of data included in the first VOB are stored in the memory 106 by the video stream control unit 105, and the data is repeatedly sent to the signal multiplexing unit 112, so that the still image information which has been a problem of the conventional apparatus is obtained. Resolves a blurry point.

  As described in the conventional digital TV broadcast wave transmission device, since the CODEC method is adopted in normal digital TV broadcast, the video signal processing unit 104 not only within a frame (one screen) but also between a plurality of frames. The video data is decompressed. As a result, when an emergency broadcast is received, the image quality is not stable for each frame due to the influence of data processing between frames, so that still image information such as maps and characters, which are important information in an emergency, is clear. May not be displayed. Therefore, in the present embodiment, as shown in FIG. 2C, at the time of emergency broadcasting, a still image to be compression-coded is first specified and stored in the memory 106 so as not to cause a fine difference, and this video signal is further stored. It is repeatedly read out and sent out as a multiplexed signal.

  Hereinafter, the operation of the broadcast wave transmitting apparatus according to the present embodiment will be described with reference to FIG.

  In FIG. 1, when an emergency broadcast is started when an emergency such as an earthquake or disaster occurs, an emergency broadcast instruction signal a is received, and the emergency broadcast switching unit 110 instructs the switching from the normal broadcast. First, a switching signal is sent to the emergency broadcast notification unit 111 to indicate that it is an emergency broadcast, and the emergency broadcast notification unit 111 sends an emergency broadcast notification flag b to the signal multiplexing unit 112.

  On the other hand, the analog video prepared for emergency broadcasting is converted into a digital video signal by the video signal input unit 101, transferred to the video signal processing unit 104 via the video input control unit 102, and is compressed and encoded here. . Thereafter, the signal is sent to the signal multiplexing unit 112 via the video stream control unit 105.

  The emergency broadcast switching unit 110 sends a control signal to the encoding control unit 107, the audio signal processing unit 109, and the signal multiplexing unit 112 so that each unit operates corresponding to the emergency broadcast. At this time, if the emergency broadcast instruction signal a includes a still image broadcast instruction, the video input control unit 102 confirms the switching from the moving image to the still image and the switching of each still image based on the video switching signal c. The digital video signal is captured from the video signal input unit 101 and stored in the video data memory 103.

  The stored digital video signal is read from the video data memory 103 in accordance with a control signal from the encoding control unit 107 and transferred to the video signal processing unit 104. Further, the encoding control unit 107 sends a control signal to the video signal processing unit 104 and the video stream control unit 105, stores the head VOB subjected to optimal encoding in the head VOB memory 106, and thereafter the video switching signal c. Until the video is switched, the head VOB data is repeatedly sent to the signal multiplexing unit 112.

  On the other hand, the analog audio signal input together with the analog video signal is converted into a digital audio signal by the audio signal input unit 108, sent to the audio signal processing unit 109, compressed and encoded, and transferred to the signal multiplexing unit 112. At this time, unlike the case of the moving image, the video and audio may be encoded without being synchronized.

  A compressed video signal stored in the first VOB memory 106 is repeatedly sent to the signal multiplexing unit 112, while a compressed audio signal is input from the audio signal processing unit 109 and a notification flag is input from the emergency broadcast notification unit 111, respectively. Is done. These signals are multiplexed by the signal multiplexing unit 112 and sent to the modulation signal sending unit 113, where they are modulated into a form that can be sent as a broadcast wave, and then sent through the antenna 114.

  As described above, in the present embodiment, after the input analog video signal is digitized, an arbitrary frame portion is cut out and stored in the video data memory 103, and the first VOB compression-coded under the optimum conditions is converted into the first VOB. A broadcast wave capable of reproducing high-definition still image information required in an emergency is realized by storing the image in the memory 106 and then repeatedly transmitting the still image until the next still image or moving image is switched.

(Embodiment 2)
FIG. 3 is a block diagram of digital TV broadcast wave transmission measures in the second embodiment of the present invention. In the configuration of FIG. 3, the head VOB memory 106 is changed to a convergent I frame memory 301 with respect to the configuration of FIG. 1. Since other configurations are the same as those in FIG. 1, blocks having the same functions are denoted by the same reference numerals and description thereof is omitted. The same applies to the following description.

  The principle of this embodiment will be described with reference to FIG. Similar to FIG. 2, FIGS. 4A and 4B show the frame structure of a video signal by the CODEC system transmitted from a broadcasting station in time series. FIG. 4C shows the transition of the data amount of the image included in the video signal.

  In the first embodiment, the video of the first VOB is stored in the memory as it is and repeatedly transmitted. However, in this embodiment, compression encoding is repeated until the video data of the I picture has the highest bit rate. The frame data of the I picture (hereinafter referred to as I frame) and the null data (zero data) having a high bit rate are transmitted as VOB data.

  Specifically, when broadcasting an image obtained by shooting a still image with text or a map written on paper during an emergency broadcast, as shown in FIG. 4C, one reference picture corresponding to 1 VOB is shown. (I picture) is selected as high-definition as possible (I frame 411 in FIG. 4), and a plurality of predicted pictures (P picture, B picture) associated therewith are converted into null data (zero data) frames (412 in FIG. 4). ), A video signal for 1 VOB is generated, and this video signal is stored in the convergence I frame memory 304, and is repeatedly read out and output to the signal multiplexing unit 112.

  As in the first embodiment, it is possible to transmit still image information with higher definition than before by repeatedly transmitting the video data of the first VOB, but when the reproduced image is a still image. Since only the video signal included in the I frame is reproduced as in the present embodiment, it is possible to reproduce high-definition image information more than in the first embodiment.

  With reference to FIG. 3, the operation of the broadcast wave transmitting apparatus in the present embodiment will be described. The prepared analog video signal of a still image is converted into a digital video signal by the video signal input unit 101 and stored in the video data memory 103 by the video input control unit 102. Thereafter, in accordance with an instruction from the encoding control unit 107, the video signal processing unit 104 repeatedly performs compression coding until the video data of the I picture has the highest bit rate, and the resulting I frame 411 data and other data The null data (zero data) of the frame 412 is stored in the convergence I frame memory 301 as VOB data. The stored data is repeatedly read out by the video stream control unit 105 and transferred to the signal multiplexing unit 112.

  As described above, in this embodiment, it is possible to eliminate blurring of still image information required in an emergency by configuring VOB data using only I-frame data having a high bit rate.

(Embodiment 3)
FIG. 5 is a block diagram of a digital TV broadcast wave transmission measure in the third embodiment of the present invention. In the configuration of FIG. 5, the head VOB memory 106 is changed to a converged VOB memory 501 with respect to the configuration of FIG. 1.

  The principle of the present embodiment will be described with reference to FIG. In the first embodiment, the video of the first VOB is stored in the memory 106 as it is, repeatedly read out and sent to the signal multiplexing unit 112. In this embodiment, the compression code is used until the video data of 1 VOB has the highest bit rate. The VOB data having the highest bit rate of the video data obtained as a result is repeatedly transmitted.

  With reference to FIG. 5, the operation of the broadcast wave transmitting apparatus in the present embodiment will be described. The prepared analog video signal of a still image is converted into a digital video signal by the video signal input unit 101 and stored in the video data memory 103 by the video input control unit 102. Thereafter, in accordance with an instruction from the encoding control unit 107, the video signal processing unit 104 repeatedly performs compression encoding until the VOB video data has the highest bit rate, and the resulting VOB data is stored in the converged VOB memory 501. To do. The stored data is repeatedly read by the video stream control unit 105, multiplexed with a compressed audio signal or the like by the signal multiplexing unit 112, and sent to the modulation signal sending unit 113.

  As described above, in the present embodiment, compression encoding of a video signal is repeatedly performed, VOB data that maximizes the bit rate of the video signal is extracted, stored in the converged VOB memory 501, and repeatedly transmitted. This makes it possible to increase the definition of still images that are needed in an emergency.

(Embodiment 4)
FIG. 6 is a block diagram of a digital TV broadcast wave transmission measure in the fourth embodiment of the present invention. In the configuration of FIG. 6, a voice input control unit 601 and a voice data memory 602 are added to the configuration of FIG.

  In the present embodiment, when the sound corresponding to the still image has a certain length and is repeatedly reproduced thereafter, the still image switching timing and the audio switching timing are transmitted in synchronization.

  With reference to FIG. 6, the operation of the broadcast wave transmitting apparatus in the present embodiment will be described. In the above-described third embodiment, starting from the video switching signal c to the video input control unit 102, compression encoding is repeatedly performed until 1 VOB video data has the highest bit rate. High VOB data is repeatedly read from the converged VOB memory 501 and sent to the signal multiplexing unit 112.

  On the other hand, in the present embodiment, when the audio switching signal d enters the audio input control unit 601 instead of audio switching, new audio and still images are input in synchronization therewith, and the audio data is stored in the audio data memory 602. Is done. At the same time, the audio input control unit 601 notifies the encoding control unit 107 that the audio has been switched, and in response to this, the encoding control unit 107 instructs the video input control unit 102 to take in video data. Starting from this, the analog video signal of the still image becomes a digital video signal at the video signal input unit 101 and is stored in the video data memory 103 by the video input control unit 102.

  Thereafter, in accordance with the instruction from the encoding control unit 104, the video signal processing unit 102 repeatedly performs compression encoding until the VOB video data has the highest bit rate, and the resulting VOB data with a high bit rate is converged to VOB. Store in the memory 501. The stored data is repeatedly read by the video stream control unit 105, multiplexed with a compressed audio signal or the like by the signal multiplexing unit 112, and then transmitted to the modulation signal transmission unit 113.

  As described above, in the present embodiment, when reproducing a still image video signal, synchronization with the audio to be reproduced at the same time is performed, and when the content of the audio is switched, the still image is also switched in synchronization. In addition, still image information can be transmitted with high definition.

(Embodiment 5)
FIG. 7 is a block diagram of a digital TV broadcast wave transmission measure in the fifth embodiment of the present invention. In the configuration of FIG. 7, a reset instruction unit 701 that requests the video signal processing unit 104 and the video stream control unit 105 to initialize parameters every time video is switched is added to the configuration of FIG. 6.

  In the present embodiment, by adding a reset instruction unit 701, the video signal processing unit 104 and the video stream control unit 105 are requested to initialize parameters for every video switching. That is, by initializing parameters used for compression coding, past compression results are not reflected.

  The compression coding parameters are usually based on the fact that the past video approximates the next video, so if each video is independent like a still image, the parameters are initialized at the time of switching. By making it, it is possible to easily obtain a high-definition image.

  With reference to FIG. 7, the operation of the broadcast wave transmitting apparatus in the present embodiment will be described. When the voice switching signal d enters the voice input control unit 601 instead of voice switching, a new voice is input and stored in the voice data memory 602. At this time, when the still images are switched at the same time, the video switching signal c enters the reset instruction unit 701, so that the reset instruction signal e is output to the encoding control unit 107.

  The encoding control unit 107 interprets that the still image has been switched or returned to the moving image, and issues an initialization instruction to the video input control unit 102 in order to update the digital video signal. Also, the video signal processing unit 104 is instructed to initialize parameters for compression coding. At the same time, the encoding control unit 107 instructs the video input control unit 102 to capture video data. Starting from this, the analog video signal of the still image becomes a digital video signal at the video signal input unit 101 and is stored in the video data memory 103 by the video input control unit 102.

  Thereafter, in accordance with the instruction from the encoding control unit 107, the video signal processing unit 104 repeatedly performs compression coding until the VOB video data has the highest bit rate, and the resulting VOB data having a high bit rate is converged to VOB. Store in the memory 501. The stored data is repeatedly read out by the video stream control unit 105 and transmitted to the modulation signal transmission unit 113 via the signal multiplexing unit 112.

  As described above, in this embodiment, the parameters used for compression encoding are initialized every time the video is switched, so that past compression results are not reflected, and an independent still image video is in a high-definition state. It becomes easy to obtain.

  In each of the above-described embodiments, the case where the present invention is applied to emergency broadcasting has been described. However, the same effect can be obtained even when a still image is broadcast as a moving image in a program such as a TV museum.

  The digital TV broadcast wave transmitting apparatus according to the present invention does not require a conventionally required apparatus (data broadcasting apparatus) for transmitting still image information for emergency broadcasting, and can store moving picture information used in normal broadcasting. A device for delivery can be used. Also, if the playback device has a function of reproducing a normal broadcast video, it can be supported.

  Furthermore, the broadcast wave transmission device of the present invention can transmit a broadcast wave that can reproduce still image information with high definition while using a conventional moving image transmission device. Therefore, emergency broadcasting can be provided even to inexpensive receiving devices (such as portable small televisions) that cannot receive data broadcasts, and both the broadcast wave transmitting device and the receiving device can be reduced in cost.

1 is a block diagram of a digital TV broadcast wave transmitting apparatus according to Embodiment 1 of the present invention. The figure which showed the mode of the image data allocation in Embodiment 1 Block diagram of a digital TV broadcast wave transmitting apparatus in Embodiment 2 of the present invention The figure which showed the mode of the image data allocation in Embodiment 2 Block diagram of a digital TV broadcast wave transmitting apparatus in Embodiment 3 of the present invention Block diagram of a digital TV broadcast wave transmitting apparatus in Embodiment 4 of the present invention Block diagram of a digital TV broadcast wave transmitting apparatus in Embodiment 5 of the present invention Block diagram of a conventional digital TV broadcast wave transmitter for emergency broadcasting

Explanation of symbols

Reference Signs List 101 Video signal input unit 102 Video input control unit 103 Video data memory 104 Video signal processing unit 105 Video stream control unit 106 Leading VOB memory 107 Encoding control unit 108 Audio signal input unit 109 Audio signal processing unit 110 Emergency broadcast switching unit 111 Emergency broadcast Notification unit 112 Signal multiplexing unit 113 Modulated signal transmission unit 114 Antenna 301 Convergence I frame memory 501 Convergence VOB memory 601 Audio input control unit 602 Audio data memory 701 Reset instruction unit

Claims (1)

A video signal input unit for digitizing an analog video signal to create a digital video signal ;
A video input control unit that captures a digital video signal from the video signal input unit based on a video switching signal indicating a switching timing from a moving image to a still image or a switching timing between still images, and stores the digital video signal in a video data memory;
A video signal processor for converting the compressed video signal is a video signal compression encoding digital video signals stored in the image data memory,
In response to an emergency broadcast instruction signal input from the outside, an emergency broadcast notification unit that outputs a flag to notify that the emergency broadcast has been switched,
It consists of the frame data of the previous SL plurality of predictive picture associated from compressed video signal generated by video signal processing unit to it and the frame data of one reference picture in unit for performing compression coding of a video signal A video stream control unit that extracts only the first VOB from the VOB and stores it in the first memory, and repeatedly reads out and outputs the compressed video signal stored in the first memory ;
A signal multiplexing unit for converting the flag output from the previous SL-compressed video signal and the emergency broadcast notification unit output from the video stream control unit in the multiplexed signal,
A digital television broadcast wave transmission device comprising: a modulated signal transmission unit that modulates a signal multiplexed by the signal multiplexing unit into a signal that can be transmitted as a broadcast wave and outputs the modulated signal to an antenna.

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