JP4578326B2 - Terrestrial digital broadcast receiver - Google Patents

Description

  The present invention relates to a terrestrial digital broadcast receiver.

  In the terrestrial digital broadcast receiver, when the reception condition of the broadcast wave is bad, there is a possibility that an image that cannot be seen with much noise is displayed or a frame skip occurs. This is because the received TS (broadcast data) contains noise or the TS cannot be received.

When decoding is performed using a TS including noise, a broken frame is created. If TS cannot be received, video cannot be decoded. Therefore, the present inventor proposes a method of decoding video using a part of the TS received in the past when the reception situation deteriorates and the TS cannot be properly received.
JP-A-10-336684 JP 2004-112654 A

  An object of the present invention is to provide a terrestrial digital broadcast receiver capable of decoding even when a reference picture cannot be received.

According to the first aspect of the present invention, there is provided a terrestrial digital broadcast receiver to which video data including an IDR picture that can be decoded independently and a non_IDR picture that is decoded using a plurality of pictures including the IDR picture is transmitted. In the case where one IDR picture is not received among the reference pictures used for decoding the non_IDR picture (picture to be decoded), the most recently received IDR picture is used instead of the IDR picture that has not been received. And a decoding means for generating frame data for missing reference picture by decoding a decoding target.

According to a second aspect of the present invention, there is provided a terrestrial digital broadcast receiver to which video data including an IDR picture that can be decoded independently and a non_IDR picture that is decoded using a plurality of pictures including the IDR picture is transmitted. , When one IDR picture is not received among the reference pictures used for decoding the non_IDR picture (picture to be decoded), the elapsed time from the reception time of the most recently received IDR picture to the present is predetermined. When the discriminating means for discriminating whether the time is within the time or the discriminating means determines that the elapsed time from the reception time of the most recently received IDR picture to the present is within the predetermined time, the latest reception is performed. The reference picture is missing by decoding the decoding target using the received IDR picture instead of the unreceived IDR picture. If the first decoding means for creating the frame data for use and the judging means determine that the elapsed time from the reception time of the latest received IDR picture to the present is longer than the predetermined time, the latest decoding A second decoding unit for generating frame data for reference picture loss by decoding a decoding target using frame data obtained by processing instead of an IDR picture that has not been received; It is characterized by.

According to a third aspect of the present invention, there is provided a terrestrial digital broadcast receiver to which video data including an IDR picture that can be decoded independently and a non_IDR picture that is decoded using a plurality of pictures including the IDR picture is transmitted. In the reference picture used for decoding the non_IDR picture (picture to be decoded), when one non_IDR picture is not received, the non_IDR picture received temporally before the non_IDR picture not received Of these, first decoding means for generating frame data for reference picture loss by decoding the decoding target using the most recently received non_IDR picture instead of the non-IDR picture not received, non_IDR picture ( Among the reference pictures used for decoding (decoding target picture) One of when the IDR picture is not received, determination means for the elapsed time until the present from the receiving time of the IDR picture received to date to determine whether within the predetermined time, the discrimination means, the most recently received When it is determined that the elapsed time from the reception time of the received IDR picture to the present time is within a predetermined time, the most recently received IDR picture is used instead of the IDR picture that was not received, and the decoding target by decoding a second decoding means for generating frame data for the time reference picture missing, as well as determining means, when the elapsed time to the current from the reception time of an IDR picture that is the most recently received longer than the predetermined time when it is determined, the frame data obtained by the latest decoding process, using instead of the IDR picture that has not been received, decoded By decoding the target, characterized in that it comprises a third decoding means for creating frame data for the time reference picture missing.

According to a fourth aspect of the present invention, in the invention according to any one of the first to third aspects, the frame data for when the reference picture is missing and the frame data for when the reference picture is missing one before Means for calculating a difference from the displayed frame data and determining whether the calculated difference value is equal to or less than a predetermined threshold; and if the difference value is equal to or less than a predetermined threshold, the reference picture is missing It is determined that display frame data is to be displayed, and when the difference value is equal to or greater than a predetermined threshold value, there is provided means for determining that the frame data for lack of the reference picture is not displayed .

The invention according to claim 5 is the invention according to any one of claims 1 to 4 , wherein two or more reference pictures are received among the reference pictures used for decoding the non_IDR picture (picture to be decoded). If there is not, the decoding target is not decoded .

  According to the present invention, decoding can be performed even when a reference picture cannot be received.

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

[1] Explanation of video encoding method

  In terrestrial digital broadcasting for mobile terminals, the H.264 / AVC (MPEG4 part 10) (hereinafter referred to as H.264) system is used as a video compression system. The H.264 system is one of the MPEG video compression techniques. In the MPEG system, video is realized by continuous display of frames. However, if all the frames constituting the video are transmitted without compression, there arises a problem that the capacity of data to be transmitted becomes very large. Of course, the broadcast band is limited, and transmission without compression is unrealistic.

  Therefore, in the terrestrial digital broadcasting, an MPEG system that compresses and transmits each frame is adopted. Among them, the H.264 method is a method that enables high-compression encoding. As shown in FIG. 1, pictures used in the H.264 method are classified into two types, IDR pictures and non_IDR pictures. In FIG. 1, P1 to P4 and P6 to P9 are non_IDR pictures, and P5 is an IDR picture. An IDR picture is a picture that can be decoded independently. In the operation of terrestrial digital broadcasting, the IDR transmission interval is set to 2 to 5 seconds. The non_IDR picture cannot be decoded independently, and is decoded using a plurality of pictures (reference pictures) including the IDR picture.

[2] Explanation of the concept of the present invention

(1) When a non_IDR picture to be referenced cannot be acquired As shown in FIG. 2, it is assumed that a non_IDR picture P7 cannot be acquired among reference pictures to be used when decoding a non_IDR picture P9. . In this case, among the non_IDR pictures acquired temporally before the non_IDR picture P7 that could not be acquired, the most recently acquired non_IDR picture P6 is used instead of the non_IDR picture P7 that could not be acquired. To decode the non_IDR picture P9.

(2) When the IDR picture to be referenced could not be acquired (part 1)
As shown in FIG. 3, it is assumed that the IDR picture P17 cannot be acquired from the reference pictures to be used when the non_IDR picture P19 is decoded. In this case, the latest IDR picture P12 is used in place of the IDR picture P17 that could not be acquired, and the non_IDR picture P19 is decoded. However, if the elapsed time from the acquisition of the IDR picture P12 to the present is greater than the predetermined time, decoding is performed by the method (3) described later.

(3) When the IDR picture to be referenced could not be acquired (part 2)
As shown in FIG. 4, it is assumed that the IDR picture P23 cannot be acquired from the reference pictures to be used when the non_IDR picture P25 is decoded. In this case, in principle, the most recently acquired IDR picture P12 is used instead of the IDR picture P23 that could not be acquired.

  However, if the elapsed time from the acquisition of the IDR picture P12 to the present is greater than the predetermined time, it is predicted that the correlation between the IDR picture P23 that could not be acquired and the latest acquired IDR picture P12 is low.

  Therefore, in such a case, instead of using the previously acquired IDR picture P12 as a reference picture, the non-IDR picture P25 is decoded by using the frame data F decoded immediately before instead of the IDR picture P23. .

  When the decoding is performed according to the above (1), (2) or (3), the frame data obtained by the decoding is not the original frame data, so whether or not to adopt (whether or not to display). After the determination, the frame data is displayed only when it is determined to be adopted (displayed).

  This determination is performed when the difference (interframe difference) between the frame created by the decoding process described above and the frame displayed before that frame is calculated, and the calculation result is smaller than a predetermined threshold. When the calculation result is equal to or greater than a predetermined threshold value, it is determined that it is not adopted (not displayed). As the inter-frame difference, for example, the sum of absolute values of the differences of the RGB values between all corresponding pixels is used.

[3] Explanation of configuration of terrestrial digital receiver

FIG. 5 shows the configuration of a terrestrial digital receiver.
The terrestrial digital receiver includes a tuner module 1, a demultiplexer (DEMUX) 2, a decoder 3, a reference picture buffer 4, a frame buffer 5, a display 6, and a CPU 7.

  The tuner module 1 obtains broadcast data called TS (transport stream). Then, by Demax 2, data called ES (elementary stream) and section data are extracted from the TS. Here, the ES is encoded video (H.264 video), audio, or text data, and one TS includes a plurality of ESs.

  The reference picture buffer 4 stores a predetermined number of received pictures. In the decoder 3, the video obtained by the demux 2 is decoded. The frame data obtained by the decoder 3 is temporarily stored in the frame buffer 5 and then displayed on the display 6.

  The CPU 7 controls each unit. When the CPU 7 cannot acquire a reference picture to be used for decoding, the CPU 7 acquires a reference picture (or frame data) instead of the reference picture, and performs decoding according to the above (1), (2), and (3). Display / non-display determination in the event of a failure is also performed.

[4] Decoding process for non_IDR picture

  FIG. 6 shows a decoding processing procedure for a non_IDR picture.

  This process is executed when attempting to decode a non_IDR picture.

  First, it is determined whether or not there is a reference picture (step S1). If a reference picture exists, normal decoding is performed (step S2). When there is no reference picture (when only one reference picture is not received among the reference pictures), it is determined whether the reference picture that does not exist is an IDR picture or a non_IDR picture (step S3). When two or more reference pictures among a plurality of reference pictures used for decoding the decoding target picture are not received, the decoding process for the decoding target picture is not performed.

  If the non-existing reference picture is a non_IDR picture, the non_IDR picture acquired before the non-existing reference picture and acquired most recently is acquired from the reference picture buffer 4 (step S4) Using the acquired non_IDR picture instead of a non-existent reference picture (non_IDR picture), a decoding process is performed (step S5). Then, a difference (interframe difference) between the obtained frame and a frame displayed before that frame is calculated (step S6), and it is determined whether or not the calculation result is smaller than a predetermined threshold (step S7). ).

  If the calculation result is smaller than the predetermined threshold value, it is determined that the frame obtained by decoding is displayed (step S8). And this process is complete | finished. If the calculation result is equal to or greater than the predetermined threshold, it is determined that the frame obtained by decoding is not displayed (step S9). And this process is complete | finished.

  If it is determined in step S3 that the reference picture that does not exist is an IDR picture, it is determined whether or not the elapsed time (TIME) since the latest IDR picture was received is smaller than a predetermined time To (step S3). S10). If TIME <To, the latest received IDR picture is obtained from the reference picture buffer 4 (step S11), and the obtained IDR picture is used in place of the nonexistent reference picture (IDR picture) to perform the decoding process. Perform (step S12). Then, the process proceeds to step S15.

  If it is determined in step S10 that TIME ≧ To, frame data obtained by the latest decoding process is obtained from the frame buffer 5 (step S13), and the obtained frame data does not exist in the reference picture (IDR). Decoding processing is performed instead of (picture) (step S14). Then, the process proceeds to step S15.

  In step S15, a difference (interframe difference is calculated between the frame obtained by the decoding process in step S12 or step S14 and the frame displayed in front of the frame. It is determined whether or not it is small (step S16).

  If the calculation result is smaller than the predetermined threshold, it is determined that the frame obtained by decoding is displayed (step S17). And this process is complete | finished. If the calculation result is equal to or greater than the predetermined threshold, it is determined that the frame obtained by decoding is not displayed (step S18). And this process is complete | finished.

It is a schematic diagram which shows the picture used by a H.264 system. It is a schematic diagram for demonstrating the case where the non_IDR picture to refer cannot be acquired. It is a schematic diagram for demonstrating the case where the IDR picture to refer cannot be acquired. It is a schematic diagram for demonstrating the case where the IDR picture to refer cannot be acquired. It is a block diagram which shows the structure of a terrestrial digital receiver. It is a flowchart which shows the decoding process procedure with respect to a non_IDR picture.

Explanation of symbols

1 Tuner module 2 Demux (DEMUX)
3 Decoder 4 Reference picture buffer 5 Frame buffer 6 Display 7 CPU

Claims (5)

In a terrestrial digital broadcast receiver to which video data consisting of an IDR picture that can be decoded independently and a non_IDR picture that is decoded using a plurality of pictures including an IDR picture is sent,
When one IDR picture is not received among the reference pictures used for decoding the non_IDR picture (picture to be decoded), the most recently received IDR picture is used instead of the IDR picture that has not been received. , by decoding the decoding target, terrestrial digital broadcast receiver characterized by comprising a decoding means for creating frame data for the time reference picture missing. In a terrestrial digital broadcast receiver to which video data consisting of an IDR picture that can be decoded independently and a non_IDR picture that is decoded using a plurality of pictures including an IDR picture is sent,
If one IDR picture is not received among the reference pictures used to decode the non_IDR picture (picture to be decoded), the elapsed time from the reception time of the most recently received IDR picture to the present time is within a predetermined time Discriminating means for discriminating whether or not
When it is determined by the determining means that the elapsed time from the reception time of the most recently received IDR picture to the present is within a predetermined time, the most recently received IDR picture is replaced with the IDR picture that has not been received. Instead, first decoding means for generating frame data for reference picture loss by decoding a decoding target, and
If it is determined by the determining means that the elapsed time from the reception time of the most recently received IDR picture to the present is longer than the predetermined time, the frame data obtained by the latest decoding process is not received. Second decoding means for generating frame data for reference picture loss by decoding a decoding target, using instead of a picture;
A terrestrial digital broadcast receiver characterized by comprising: In a terrestrial digital broadcast receiver to which video data consisting of an IDR picture that can be decoded independently and a non_IDR picture that is decoded using a plurality of pictures including an IDR picture is sent,
Among the reference pictures used for decoding the non_IDR picture (picture to be decoded), when one non_IDR picture is not received, the latest non_IDR picture received temporally before the non_IDR picture that was not received A first decoding means for generating frame data for reference picture loss by decoding a decoding target using a non_IDR picture received in step 1 in place of a non_IDR picture not received;
If one IDR picture is not received among the reference pictures used to decode non_IDR pictures (pictures to be decoded), the elapsed time from the reception time of the most recently received IDR picture to the present time is within a predetermined time Discriminating means for discriminating whether or not
The determining means, when the elapsed time to the current from the reception time of the IDR picture received to date is judged to be within the predetermined time, the IDR picture is the most recently received, the IDR picture that has not been received Instead, a second decoding means for generating frame data for reference picture loss by decoding a decoding target, and
The determining means, when the elapsed time to the current from the reception time of the IDR picture received to date is judged greater than the predetermined time, the frame data obtained by the latest decoding process has not been received IDR A third decoding means for generating frame data for reference picture loss by decoding a decoding object to be used instead of a picture;
A terrestrial digital broadcast receiver characterized by comprising: The difference between the frame data for missing reference picture and the frame data displayed immediately before the frame data for missing reference picture is calculated, and whether the calculated difference value is equal to or less than a predetermined threshold value A means of determining whether and
When the difference value is equal to or smaller than a predetermined threshold, it is determined to display frame data for when the reference picture is missing, and when the difference value is equal to or larger than the predetermined threshold, the frame for when the reference picture is missing Means to determine that data is not displayed,
The terrestrial digital broadcast receiver according to any one of claims 1 to 3 , further comprising: The reference object according to any one of claims 1 to 4, wherein when two or more reference pictures are not received among reference pictures used for decoding a non_IDR picture (decoding target picture), the decoding target is not decoded . Terrestrial digital broadcast receiver.

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