JP2006339863A - Digital broadcast receiving device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a digital broadcast receiving device capable of displaying legible video images even when errors occur in a video data decoding process in a poor environment for receiving digital broadcast waves. <P>SOLUTION: A decoding error counting unit 3 is provided to count the number X of errors in a decoding process in an MPEG video decoding unit 2, the display unit of video images is determined corresponding to the number X of the errors counted by the decoding error counting unit 3, and an indication that the display unit is subjected to a decoding process is given to the MPEG video decoding unit 2. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a digital broadcast receiving apparatus that decodes MPEG compressed video data included in a digital broadcast wave and displays a video according to the decoded data.

When a conventional digital broadcast receiving apparatus receives a digital broadcast wave including video data configured by the MPEG compression method, if a reception error of the digital broadcast wave occurs and the video deteriorates, The deterioration state is classified into a first deterioration state, a second deterioration state, or a third deterioration state.
When the video deterioration state is the first deterioration state, the digital broadcast receiving apparatus uses the intra-frame encoded image (I picture) and the inter-frame forward prediction encoded image (P picture) to decode the decoded video data. The video is created and displayed according to the decoded video data.

When the video deteriorates from the first deterioration state and the video deterioration state becomes the second deterioration state, decoded image data is created using the intra-frame encoded image (P picture), and the decoded video data is used as the decoded video data. Therefore, the video is displayed.
When the image deteriorates from the second deterioration state and the deterioration state of the image becomes the third deterioration state, a complete still image is displayed according to image data of good image quality stored in the memory in advance. Alternatively, the display of the video is stopped to suppress deterioration in image quality (see, for example, Patent Document 1).

JP 2004-112654 A (2nd to 8th pages, FIG. 1)

  Since the conventional digital broadcast receiving apparatus is configured as described above, the video data is decoded according to the video deterioration state, and when an error occurs in the decoding process, the video data is discarded. However, even if an error occurs during the decoding process, the video display unit is always the same. For example, even if video from one slice can be displayed normally, video from another slice cannot be displayed normally. However, there is a problem that video data cannot be displayed because the video data is discarded in frame units.

  The present invention has been made in order to solve the above-described problems, and is capable of displaying an easy-to-see video even when a digital broadcast wave reception environment is poor and an error occurs in the video data decoding process. An object is to obtain a broadcast receiving apparatus.

  The digital broadcast receiving apparatus according to the present invention is provided with an error count unit that counts the number of errors in the decoding process in the decoding unit, determines a display unit of video according to the number of errors counted by the error count unit, The display unit decoding process is instructed to the decoding means.

  As described above, according to the present invention, the error counting means for counting the number of errors in the decoding process in the decoding means is provided, and the video display unit is determined according to the number of errors counted by the error counting means. Since the decoding unit is instructed to decode the display unit, it is possible to display an easy-to-view video even when the reception environment of the digital broadcast wave is bad and an error occurs in the decoding process of the video data. There is an effect that can.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing a digital broadcast receiver according to Embodiment 1 of the present invention. In the figure, an MPEG-TS separator 1 is an MPEG (Moving Picture Expert Group) which is a demodulated signal of a digital broadcast wave from a tuner, for example. When TS data is received, a process of separating MPEG video data (MPEG compressed video data) and the like multiplexed on the MPEG-TS data is performed.
When the MPEG video decoding unit 2 receives the MPEG video data from the MPEG-TS separation unit 1, the MPEG video data is displayed in the display unit (slice unit S1, picture unit S2, or sequence unit S3) designated by the video display switching unit 5. In addition, when an error occurs during the decoding process, a process of notifying the decoding error count unit 3 that an error has occurred is performed.
The MPEG-TS separation unit 1 and the MPEG video decoding unit 2 constitute decoding means.

The decoding error count unit 3 performs processing such as counting up the number of errors X in the decoding process in the MPEG video decoding unit 2 every time an error notification is received from the MPEG video decoding unit 2. Note that the decryption error count unit 3 constitutes an error count means.
The video display determination unit 4 performs processing for determining a video display unit according to the number of errors X counted by the decoding error count unit 3.
When the video display switching unit 5 receives a notification of a video display unit from the video display determination unit 4, the video display switching unit 5 performs a process of instructing the MPEG video decoding unit 2 to perform a decoding process of the display unit. The video display determination unit 4 and the video display switching unit 5 constitute display unit switching means.
The video display unit 6 performs processing for displaying video according to the MPEG video data decoded by the MPEG video decoding unit 2. The video display unit 6 constitutes video display means.

The error count threshold control table storage unit 11 of the video display determination unit 4 is a memory that stores an error count threshold control table in which thresholds A1, A2, B1, and B2 corresponding to the current display unit are specified.
The error count threshold extraction unit 12 of the video display determination unit 4 performs a process of extracting a threshold corresponding to the current display unit from the error count threshold control table stored in the error count threshold control table storage unit 11. .
The error count determination unit 13 of the video display determination unit 4 compares the threshold extracted by the error count threshold extraction unit 12 with the error count X counted by the decoding error count unit 3, and displays the video according to the comparison result. Perform the process to determine the unit.
The error count display switching instruction unit 14 of the video display determination unit 4 performs a process of notifying the video display switching unit 5 of the video display unit determined by the error count determination unit 13.

FIG. 2 is a transition diagram showing the switching order of the display units in the video display determination unit 4 of the digital broadcast receiving apparatus according to Embodiment 1 of the present invention.
In the figure, a slice unit S1 is a unit in which the MPEG video decoding unit 2 decodes MPEG video data for each slice and outputs the decoded data to the video display unit 6.
The picture unit S2 is a unit in which the MPEG video decoding unit 2 decodes MPEG video data for each I picture / P picture / B picture / and outputs the decoded data to the video display unit 6.
The sequence unit S3 is a unit in which the MPEG video decoding unit 2 decodes the MPEG video data for each sequence and outputs the decoded data to the video display unit 6.

a1 is an arrow indicating a state transition from the slice unit S1 to the picture unit S2.
a2 is an arrow indicating a state transition from the picture unit S2 to the sequence unit S3.
b1 is an arrow indicating a state transition from the picture unit S2 to the slice unit S1.
b2 is an arrow indicating a state transition from the sequence unit S3 to the picture unit S2.

  FIG. 3 is an explanatory diagram showing an error count threshold control table stored in the error count threshold control table storage unit 11. The error count threshold control table shows whether or not the display unit is changed to the a direction or the b direction. The threshold value used when making a determination is held. If the current display unit is the slice unit S1, the threshold value A1 is used. If the current display unit is the picture unit S2, the threshold value A2 and the threshold value B1 are used. It is specified that the threshold value B2 is used for the unit S3.

Next, the operation will be described.
For example, the MPEG-TS separation unit 1 receives a digital broadcast wave in an environment in which fading noise occurs in a tuner, demodulates the digital broadcast wave, and converts MPEG-TS data that is a demodulated signal of the digital broadcast wave. When output, the MPEG video data multiplexed on the MPEG-TS data is separated.

When the MPEG video decoding unit 2 receives the MPEG video data from the MPEG-TS separation unit 1, the MPEG video decoding unit 2 displays the MPEG video in the display unit (slice unit S1, picture unit S2, or sequence unit S3) designated by the video display switching unit 5. Decrypt the data.
That is, when the MPEG video decoding unit 2 receives an instruction to decode the slice unit S1 from the video display switching unit 5, the MPEG video decoding unit 2 decodes the MPEG video data in the slice unit S1 and sends the decoded data to the video display unit 6. Output.
Also, when receiving an instruction for decoding processing in picture units S2 from the video display switching unit 5, the MPEG video data is decoded in picture units S2 and the decoded data is output to the video display unit 6.
When receiving an instruction to decode the sequence unit S 3 from the video display switching unit 5, the MPEG video data is decoded in the sequence unit S 3 and the decoded data is output to the video display unit 6.
When an error occurs during the decoding process, the MPEG video decoding unit 2 notifies the decoding error count unit 3 that an error has occurred.

The decoding error count unit 3 performs a process of counting up the number of errors X in the decoding process in the MPEG video decoding unit 2 every time an error notification is received from the MPEG video decoding unit 2.
The decoding error count unit 3 notifies the video display determination unit 4 of the number of errors X in the decoding process at a preset cycle.
When the decoding error count unit 3 notifies the video display determination unit 4 of the error count X in the decoding process, the decoding error count unit 3 clears the error count X stored in the decoding error count to 0 (when the video display unit is switched). In addition, the error count X stored by itself is cleared to 0).

The video display determination unit 4 performs a process of determining a video display unit according to the number of errors X counted by the decoding error count unit 3.
That is, when the error count determination unit 13 of the video display determination unit 4 receives the error count X in the decoding process from the decoding error count unit 3, it requests the error count threshold extraction unit 12 to perform threshold value extraction processing.
When the error count threshold extraction unit 12 of the video display determination unit 4 receives a threshold extraction request from the error count determination unit 13, the error count threshold control unit 12 stores the error count threshold control table stored in the error count threshold control table storage unit 11. A process of extracting a threshold corresponding to the current display unit is performed.
For example, if the current display unit is the slice unit S1, the threshold A1 is extracted. If the current display unit is the picture unit S2, the threshold A2 and the threshold B1 are extracted, and the current display unit is the sequence unit S3. If there is, the threshold value B2 is extracted.
Here, for convenience of explanation, it is assumed that there is a relationship of A1 <B1 <A2 <B2.

The error count determination unit 13 of the video display determination unit 4 counts the threshold corresponding to the current display unit and the decoding error count unit 3 when the error count threshold extraction unit 12 extracts the threshold corresponding to the current display unit. The error count X is compared, and a process of determining a video display unit according to the comparison result is performed.
For example, if the current display unit is the slice unit S1, the threshold value A1 is compared with the error count X, and if the comparison result is X ≦ A1, it is considered that the reception status of the digital broadcast wave is good. It is determined that the display unit is not changed.
On the other hand, if the comparison result is X> A1, it is considered that the reception status of the digital broadcast wave has deteriorated, so the display unit is changed to the a direction, that is, the display unit is changed from the slice unit S1 to the picture unit S2. Decide that

For example, if the current display unit is the picture unit S2, the threshold A2 is compared with the error count X, and the threshold B1 is compared with the error count X.
If the comparison result is X ≦ B1, it is considered that the reception status of the digital broadcast wave has been improved. Therefore, the display unit is changed to the b direction, that is, the display unit is changed from the picture unit S2 to the slice unit S1. decide.
If the comparison result is B1 <X ≦ A2, it is determined that the display unit is not changed because there is no change in the reception status of the digital broadcast wave.
If the comparison result is X> A2, it is considered that the reception status of the digital broadcast wave has deteriorated, so the display unit is changed to the a direction, that is, the display unit is changed from the picture unit S2 to the sequence unit S3. decide.

For example, if the current display unit is the sequence unit S3, the threshold B2 and the error count X are compared.
If the comparison result is X ≦ B2, it is considered that the reception status of the digital broadcast wave is improved, so the display unit is changed to the b direction, that is, the display unit is changed from the sequence unit S3 to the picture unit S2. decide.
On the other hand, if the comparison result is X> B2, it is considered that the reception status of the digital broadcast wave is bad, so that the display unit is not changed.

When the error count determination unit 13 determines the video display unit, the error count display switching instruction unit 14 of the video display determination unit 4 performs processing to notify the video display switching unit 5 of the video display unit.
When the video display switching unit 5 receives the notification of the video display unit from the video display determination unit 4, the video display switching unit 5 instructs the MPEG video decoding unit 2 to decode the display unit.

When the MPEG video decoding unit 2 decodes the MPEG video data in the display unit designated by the video display switching unit 5 as described above, the video display unit 6 converts the MPEG video data into the decoded MPEG video data. Therefore, a process for displaying an image is performed.
That is, the video display unit 6 stores the MPEG video data, which is the decoded data output from the MPEG video decoding unit 2, in an internal frame buffer, and performs a color space conversion process on the MPEG video data or a format such as NTSC. Perform the generation process.
For example, the processed MPEG video data is D / A converted as necessary, and a video signal is output as an analog signal or a digital signal.

  As apparent from the above, according to the first embodiment, the decoding error counting unit 3 for counting the number of errors X in the decoding process in the MPEG video decoding unit 2 is provided, and the decoding error counting unit 3 counts the errors. Since the video display unit is determined according to the number of errors X and the decoding process of the display unit is instructed to the MPEG video decoding unit 2, the video display unit is instructed according to the number of errors X in the decoding process. The display unit can be changed dynamically, and as a result, even if the reception environment of digital broadcast waves is poor and an error occurs in the decoding process of video data, it is possible to display an easy-to-view video Play.

  In the first embodiment, every time an error notification is received from the MPEG video decoding unit 2, the decoding error counting unit 3 counts up the number of errors X in the decoding process in the MPEG video decoding unit 2. However, at this time, the MPEG video decoding unit 2 may notify the error in the current display unit, or always notify the error in the same display unit (slice unit, picture unit or sequence unit). May be.

  In the first embodiment, when the error count determination unit 13 of the video display determination unit 4 receives the number X of decoding process errors from the decoding error count unit 3, the threshold value is extracted regardless of the current display unit. Although processing for requesting the error count threshold extraction unit 12 has been described, the error count threshold extraction unit 12 may be requested to perform extraction processing as a threshold for an error count that occurs in the current display unit.

Embodiment 2. FIG.
4 is a block diagram showing a digital broadcast receiving apparatus according to Embodiment 2 of the present invention. In the figure, the same reference numerals as those in FIG.
The display frame count unit 7 performs a process of counting the number of frames Y of the video displayed by the video display unit 6. The display frame count unit 7 constitutes a frame count unit.
The video display determination unit 8 determines a video display unit according to the number of errors X counted by the decoding error count unit 3 and also displays a video display unit according to the number of frames Y counted by the display frame count unit 7. The process of determining is performed. The video display determination unit 8 and the video display switching unit 5 constitute display unit switching means.

The frame count threshold control table storage unit 21 of the video display determination unit 8 is a memory that stores a frame count threshold control table in which thresholds F1 and F2 corresponding to the current display unit are specified.
The frame count threshold extraction unit 22 of the video display determination unit 8 performs a process of extracting a threshold corresponding to the current display unit from the frame count threshold control table stored in the frame count threshold control table storage unit 21. .
The frame count determination unit 23 of the video display determination unit 8 compares the threshold extracted by the frame count threshold extraction unit 22 with the number of frames Y counted by the display frame count unit 7, and displays a video display unit according to the comparison result. The process of determining is performed.
The frame count display switching instruction unit 24 of the video display determination unit 8 performs a process of notifying the video display switching unit 5 of the video display unit determined by the frame count determination unit 23.

Next, the operation will be described.
For example, the MPEG-TS separation unit 1 receives a digital broadcast wave in an environment in which fading noise occurs in a tuner, demodulates the digital broadcast wave, and converts MPEG-TS data that is a demodulated signal of the digital broadcast wave. When output, the MPEG video data multiplexed in the MPEG-TS is separated.

When receiving the MPEG video data from the MPEG-TS separation unit 1, the MPEG video decoding unit 2 receives the display unit (slice unit S1, picture unit S2 or picture unit specified by the video display switching unit 5 as in the first embodiment). The MPEG video data is decoded in sequence unit S3).
Further, when an error occurs during the decoding process, the MPEG video decoding unit 2 notifies the decoding error count unit 3 that an error has occurred, as in the first embodiment.

The decoding error count unit 3 performs a process of counting up the number of errors X in the decoding process in the MPEG video decoding unit 2 every time an error notification is received from the MPEG video decoding unit 2.
The decoding error count unit 3 notifies the video display determination unit 8 of the number of errors X in the decoding process at a preset cycle.
When the decoding error count unit 3 notifies the video display determination unit 8 of the error count X in the decoding process, the decoding error count unit 3 clears the error count X stored in the decoding error count to 0 (when the video display unit is switched). In addition, the error count X stored by itself is cleared to 0).

The display frame counting unit 7 performs a process of counting up the number of frames Y of the video every time the video display unit 6 displays the video.
The display frame count unit 7 notifies the video display determination unit 8 of the number Y of video frames at a preset cycle.
When the display frame count unit 7 notifies the video display determination unit 8 of the video frame number Y, the display frame count unit 7 clears the frame number Y stored in the display frame count unit 0 (even when the video display unit is switched). The number of frames Y stored by itself is cleared to 0).

The video display determination unit 8 determines a video display unit according to the error count X counted by the decoding error count unit 3, and displays a video according to the frame number Y counted by the display frame count unit 7. Perform the process to determine the unit.
Hereinafter, the processing content of the video display determination unit 8 will be specifically described. In the second embodiment, the change process in the a direction is changed according to the number of errors X, and the change process in the b direction is the number of frames. Change according to Y.

That is, when the error count determination unit 13 of the video display determination unit 8 receives the number of errors X in the decoding process from the decoding error count unit 3, the error count determination unit 13 performs the threshold value extraction process as in the first embodiment. The extraction unit 12 is requested.
When receiving the threshold extraction request from the error count determination unit 13, the error count threshold extraction unit 12 of the video display determination unit 8 is stored in the error count threshold control table storage unit 11 as in the first embodiment. A process of extracting a threshold corresponding to the current display unit from the error count threshold control table is performed. However, in the second embodiment, since the change process in the b direction is changed according to the number of frames Y, not the number of errors X, the threshold values B1 and B2 are not extracted.
Here, for convenience of explanation, it is assumed that there is a relationship of A1 <A2.

When the error count threshold extraction unit 12 extracts a threshold corresponding to the current display unit, the error count determination unit 13 of the video display determination unit 8 extracts the threshold corresponding to the current display unit as in the first embodiment. The number of errors X counted by the decoding error count unit 3 is compared, and processing for determining a video display unit according to the comparison result is performed.
For example, if the current display unit is the slice unit S1, the threshold value A1 is compared with the error count X, and if the comparison result is X ≦ A1, it is considered that the reception status of the digital broadcast wave is good. It is determined that the display unit is not changed.
On the other hand, if the comparison result is X> A1, it is considered that the reception status of the digital broadcast wave has deteriorated, so the display unit is changed to the a direction, that is, the display unit is changed from the slice unit S1 to the picture unit S2. Decide that

For example, if the current display unit is the picture unit S2, the threshold A2 and the error count X are compared.
If the comparison result is X ≦ A2, it is determined that the display unit is not changed because there is no change in the reception status of the digital broadcast wave.
If the comparison result is X> A2, it is considered that the reception status of the digital broadcast wave has deteriorated, so the display unit is changed to the a direction, that is, the display unit is changed from the picture unit S2 to the sequence unit S3. decide.

  When the error count determination unit 13 determines the video display unit, the error count display switching instruction unit 14 of the video display determination unit 8 sets the video display unit to the video display switching unit 5 as in the first embodiment. Perform the notification process.

When the frame count determination unit 23 of the video display determination unit 8 receives the number Y of video frames from the display frame count unit 7, it requests the frame count threshold extraction unit 22 to perform threshold value extraction processing.
When the frame count threshold extraction unit 22 of the video display determination unit 8 receives a threshold extraction request from the frame count determination unit 23, the frame count threshold extraction unit 22 selects from the frame count threshold control table stored in the frame count threshold control table storage unit 21. A process of extracting a threshold corresponding to the current display unit is performed.
For example, if the current display unit is the picture unit S2, the threshold value F1 is extracted, and if the current display unit is the sequence unit S3, the threshold value F2 is extracted. If the current display unit is the slice unit S1, the threshold extraction process is not performed.
Here, for convenience of explanation, it is assumed that there is a relationship of F1F2.

The frame count determination unit 23 of the video display determination unit 8 counts the threshold corresponding to the current display unit and the display frame count unit 7 when the frame count threshold extraction unit 22 extracts the threshold corresponding to the current display unit. A process of comparing the number of frames Y and determining a video display unit according to the comparison result is performed.
For example, if the current display unit is the picture unit S2, the threshold value F1 and the frame number Y are compared.
If the comparison result is YF1, it is considered that the reception status of the digital broadcast wave is improved and the number of errors X is decreased. Therefore, the display unit is in the b direction, that is, the display unit is changed from the picture unit S2 to the slice unit. It is determined to change to S1.
On the other hand, if the comparison result is YF1, it is considered that the reception status of the digital broadcast wave has deteriorated and the number of errors X has increased, so it is determined that the video display unit is not changed.

For example, if the current display unit is the sequence unit S3, the threshold value F2 and the frame number Y are compared.
If the comparison result is YF2, it is considered that the reception status of the digital broadcast wave has improved and the number of errors X has decreased. Therefore, the display unit is in the b direction, that is, the display unit is changed from the sequence unit S3 to the picture unit. It is determined to change to S2.
On the other hand, if the comparison result is YF2, it is considered that the reception status of the digital broadcast wave has deteriorated and the number of errors X has increased, so it is determined that the video display unit is not changed.

The frame count display switching instruction unit 24 of the video display determination unit 8 performs a process of notifying the video display switching unit 5 of the video display unit when the frame count determination unit 23 determines the video display unit.
When the video display switching unit 5 receives the notification of the video display unit from the error count display switching instruction unit 14 or the frame count display switching instruction unit 24 of the video display determination unit 4, the video display switching unit 5 performs the decoding processing of the display unit by MPEG video decoding. Instruct part 2.

When the MPEG video decoding unit 2 decodes the MPEG video data in the display unit designated by the video display switching unit 5 as described above, as in the first embodiment, the video display unit 6 A process of displaying video according to MPEG video data which is decoded data is performed.
The video display unit 6 performs a process of notifying the display frame count unit 7 of the number of frames of the video every time the video is displayed.

  As is apparent from the above, according to the second embodiment, the display frame count unit 7 for counting the number of frames Y of the video displayed by the video display unit 6 is provided, and the video display determination unit 8 serves as the display frame count unit. Since the video display unit is determined according to the number of frames Y counted by 7, and the decoding process of the display unit is instructed to the MPEG video decoding unit 2, an error occurrence state in the decoding process is determined. If it is confirmed that the improvement is surely made, the current display unit can be dynamically changed, and as a result, the display reliability can be improved as compared with the first embodiment. There is an effect.

  In the second embodiment, when the frame count determination unit 23 of the video display determination unit 8 receives the number Y of video frames from the display frame count unit 7, the threshold extraction process is performed regardless of the current display unit. Although what is requested to the count threshold extraction unit 22 has been described, the frame count threshold extraction unit 22 may be requested to perform extraction processing as a threshold for the frame count in the current display unit.

Embodiment 3 FIG.
6 is a block diagram showing a digital broadcast receiver according to Embodiment 3 of the present invention. In the figure, the same reference numerals as those in FIG.
When an error occurs in the decoding process in the MPEG video decoding unit 2, the slice display position detection unit 31 specifies a slice in which the error has occurred and performs a process of detecting the display position of the slice.
When the display position of the slice detected by the slice display position detection unit 31 is included in the preset display range, the error non-count instruction unit 32 counts the number of errors X in the decoding error count unit 3 A process of controlling so as not to be performed is performed.
The slice display position detection unit 31, the error non-count instruction unit 32, and the decoding error count unit 3 constitute an error count unit.

In the first embodiment, each time the error notification is received from the MPEG video decoding unit 2, the decoding error counting unit 3 counts up the number X of errors in the decoding process in the MPEG video decoding unit 2. When an error occurs in the decoding process in the MPEG video decoding unit 2, the slice in which the error has occurred is specified, and if the display position of the slice is included in a preset display range, an error occurs. The number of times X may not be counted.
Specifically, it is as follows.

  When receiving the MPEG video data from the MPEG-TS separation unit 1, the MPEG video decoding unit 2 receives the display unit (slice unit S1, picture unit S2 or picture unit specified by the video display switching unit 5 as in the first embodiment). In the sequence unit S3), the MPEG video data is decoded, and when an error occurs during the decoding process, the decoding error count unit 3 and the slice display position detection unit 31 are notified that an error has occurred.

When an error occurs in the decoding process in the MPEG video decoding unit 2, the slice display position detection unit 31 identifies a slice in which the error has occurred and detects the display position of the slice (position within one frame). Perform the process.
When the slice display position detection unit 31 detects the display position of a slice in which an error has occurred, the error non-count instruction unit 32 determines whether the display position of the slice is included in a preset display range. Determine whether.
For example, even if many errors occur at the top and bottom of the frame, if the number of errors occurring at the center of the frame is small, it is considered to be relatively easy to see, so the display position of the slice is preset. It is determined whether or not it is included in the central area of the current frame.

When the error non-count instruction unit 32 determines that the display position of the slice in which the error has occurred is included in the preset display range, the error count counter 3 counts the error count X in the decoding error count unit 3. A control signal to be prohibited is output to the decoding error count unit 3.
The decoding error count unit 3 counts up the number of errors X in the decoding process in the MPEG video decoding unit 2 every time an error notification is received from the MPEG video decoding unit 2, but prohibits counting from the error non-counting instruction unit 32 When the control signal is received, the error count X is not counted up.
Others are the same as those in the second embodiment, and the description thereof is omitted.

  As apparent from the above, according to the third embodiment, when an error occurs in the decoding process in the MPEG video decoding unit 2, the slice in which the error has occurred is specified, and the display position of the slice is set in advance. Since it is configured not to count the number of errors X when it is included in the set display range, for example, even if many errors occur at the top and bottom of the frame, many errors occur at the center of the frame. If it does not occur, it is possible to display an image considered to be relatively easy to see.

Embodiment 4 FIG.
FIG. 7 is a block diagram showing a digital broadcast receiving apparatus according to Embodiment 4 of the present invention. In the figure, the same reference numerals as those in FIG.
The motion vector extraction unit 33 obtains one frame of motion vectors used in the decoding process from the MPEG video decoding unit 2 and calculates the average value of the motion vectors of the one frame.
The motion vector threshold value determination unit 34 compares the average value of the motion vectors calculated by the motion vector extraction unit 33 with a preset threshold value, and calculates the threshold increase / decrease amount R according to the comparison result as the error count of the video display determination unit 8. The data is output to the threshold extraction unit 15 and the frame count threshold extraction unit 25.
The motion vector extraction unit 33 and the motion vector threshold value determination unit 34 constitute display unit switching means.

The error count threshold extraction unit 15 of the video display determination unit 8 extracts a threshold corresponding to the current display unit from the error count threshold control table stored in the error count threshold control table storage unit 11, and the threshold Is corrected with the threshold increase / decrease amount R output from the motion vector threshold determination unit 34, and the corrected threshold is output to the error count determination unit 13.
The frame count threshold extraction unit 25 of the video display determination unit 8 extracts a threshold corresponding to the current display unit from the frame count threshold control table stored in the frame count threshold control table storage unit 21, and the threshold Is corrected with the threshold increase / decrease amount R output from the motion vector threshold determination unit 34, and a process of outputting the corrected threshold to the frame count determination unit 23 is performed.

In the first and second embodiments, the error count threshold extraction unit 12 and the frame count threshold extraction unit 22 of the video display determination unit 8 are stored in the error count threshold control table storage units 11 and 21 or Although the threshold corresponding to the current display unit is extracted from the frame count threshold control table and output to the error count determination unit 13 or the frame count determination unit 23, the threshold corresponding to the current display unit is shown. May be output to the error count determination unit 13 or the frame count determination unit 23.
Specifically, it is as follows.

The motion vector extraction unit 33 acquires one frame of motion vectors used in the decoding process from the MPEG video decoding unit 2, and calculates an average value of the motion vectors of the one frame.
When the motion vector extraction unit 33 calculates an average value of motion vectors for one frame, the motion vector threshold value determination unit 34 compares the average value of the motion vectors with a preset threshold value.
The motion vector threshold value determination unit 34 makes it very difficult to view a video with a small amount of motion if a large number of errors occur in a frame to be reproduced. If the average value of the motion vectors is smaller than a preset threshold value, The threshold increase / decrease amount R that lowers the thresholds A1, A2, B1, B2, F1, and F2 is output to the error count threshold extraction unit 15 and the frame count threshold extraction unit 25 so that the video is not reproduced much.
On the other hand, in a video with a lot of motion, even if a large number of errors occur in the frame to be played back, it is easier to see the motion when playing the video as much as possible, so the average value of the motion vectors is greater than a preset threshold value In this case, the threshold increase / decrease amount R that increases the thresholds A1, A2, B1, B2, F1, and F2 is output to the error count threshold extraction unit 15 and the frame count threshold extraction unit 25 to reproduce the video as much as possible. .

  When receiving the threshold extraction request from the error count determination unit 13, the error count threshold extraction unit 15 of the video display determination unit 8 stores the error count threshold control table storage unit 11 in the same manner as the error count threshold extraction unit 12 of FIG. 6. A threshold corresponding to the current display unit is extracted from the stored error count threshold control table. The threshold is corrected by the threshold increase / decrease amount R output from the motion vector threshold determination unit 34, and the corrected A process of outputting the threshold value to the error count determination unit 13 is performed.

When the frame count threshold value extraction unit 25 of the video display determination unit 8 receives a threshold value extraction request from the frame count determination unit 23, the frame count threshold value control table storage unit is similar to the frame count threshold value extraction unit 22 of FIG. 21, a threshold corresponding to the current display unit is extracted from the frame count threshold control table stored in 21, and the threshold is corrected by the threshold increase / decrease amount R output from the motion vector threshold determination unit 34. A process of outputting the subsequent threshold value to the frame count determination unit 23 is performed.
Since other processes are the same as those in the third embodiment, description thereof is omitted.

  As is apparent from the above, according to the fourth embodiment, the motion vector used in the decoding process is acquired from the MPEG video decoding unit 2, and the video display unit is determined in consideration of the magnitude of the motion vector. As a result, it is possible to display an easy-to-view video even if the video movement changes.

  In the fourth embodiment, the motion vector extraction unit 33 calculates the average value of the motion vectors of one frame, and the motion vector threshold value determination unit 34 compares the average value of the motion vectors with a preset threshold value. Although shown, the motion vector extraction unit 33 may extract the maximum motion vector in one frame, and the motion vector threshold value determination unit 34 may compare the maximum motion vector with a preset threshold value.

Embodiment 5. FIG.
FIG. 8 is a block diagram showing a digital broadcast receiving apparatus according to Embodiment 5 of the present invention. In the figure, the same reference numerals as those in FIG.
The program information extraction unit 35 performs a process of extracting program information included in the MPEG-TS data.
The program information threshold value determination unit 36 identifies the genre of the program from the program information extracted by the program information extraction unit 35, and the threshold increase / decrease amount P corresponding to the genre is determined from the error count threshold value extraction unit 16 and the frame of the video display determination unit 8. It outputs to the count threshold value extraction part 26.
The program information extraction unit 35 and the program information threshold value determination unit 36 constitute display unit switching means.

The error count threshold value extraction unit 16 of the video display determination unit 8 extracts a threshold value corresponding to the current display unit from the error count threshold value control table stored in the error count threshold value control table storage unit 11, and the threshold value. Is corrected by the threshold increase / decrease amounts R and P output from the motion vector threshold determination unit 34 and the program information threshold determination unit 36, and the corrected threshold is output to the error count determination unit 13.
The frame count threshold value extraction unit 26 of the video display determination unit 8 extracts a threshold value corresponding to the current display unit from the frame count threshold value control table stored in the frame count threshold value control table storage unit 21, and the threshold value Is corrected by the threshold increase / decrease amounts R and P output from the motion vector threshold determination unit 34 and the program information threshold determination unit 36, and the corrected threshold is output to the frame count determination unit 23.

In the fourth embodiment, the threshold increase / decrease amount R output from the motion vector threshold determination unit 34 is used to correct the threshold corresponding to the current display unit. The threshold corresponding to the current display unit may be corrected with the threshold increase / decrease amount P.
Specifically, it is as follows.

The program information extraction unit 35 performs processing for extracting program information included in the MPEG-TS data.
When receiving the program information from the program information extraction unit 35, the program information threshold value determination unit 36 specifies the genre of the program from the program information. That is, it is specified whether or not the genre has a large variation in video.
The program information threshold value determination unit 36 stores a threshold increase / decrease amount P defined for each genre in advance, and the threshold value increase / decrease amount P corresponding to the specified program genre is extracted from the error count threshold value of the video display determination unit 8. To the unit 16 and the frame count threshold extraction unit 26.
Note that thresholds A1, A2, B1, B2, F1, and F2 that increase the threshold value are defined for genres with large video fluctuations, and thresholds A1, A2, B1, B2, and so on for genres with small video fluctuations. A threshold increase / decrease amount for reducing F1 and F2 is defined.

  When the error count threshold value extraction unit 16 of the video display determination unit 8 receives the threshold value extraction request from the error count determination unit 13, the error count threshold value extraction unit 16 sets the threshold value corresponding to the current display unit in the same manner as the error count threshold value extraction unit 15 of FIG. The threshold value increase / decrease amount R output from the motion vector threshold value determination unit 34 is corrected. Further, the threshold value corresponding to the current display unit is corrected by the threshold value increase / decrease amount P output from the program information threshold value determination unit 36, and after correction The process which outputs the threshold value to the error count determination unit 13 is performed.

  Further, when the frame count threshold value extraction unit 26 of the video display determination unit 8 receives a threshold value extraction request from the frame count determination unit 23, the frame count threshold value extraction unit 26 corresponds to the current display unit, like the frame count threshold value extraction unit 25 of FIG. 7. The threshold value is corrected by the threshold value increase / decrease amount R output from the motion vector threshold value determination unit 34, and further, the threshold value corresponding to the current display unit is corrected by the threshold value increase / decrease amount P output from the program information threshold value determination unit 36, Processing for outputting the corrected threshold value to the frame count determination unit 23 is performed.

  As apparent from the above, according to the fifth embodiment, the program information included in the MPEG-TS data is extracted, and the video display unit is determined in consideration of the program genre indicated by the program information. Thus, even if the genre of the program changes, an effect that an easy-to-view video can be displayed is produced.

It is a block diagram which shows the digital broadcast receiver by Embodiment 1 of this invention. It is a transition diagram which shows the switching order of the display unit in the video display determination part 4 of the digital broadcast receiver by Embodiment 1 of this invention. It is explanatory drawing which shows the error count threshold value control table stored in the error count threshold value control table storage part 11. FIG. It is a block diagram which shows the digital broadcast receiver by Embodiment 2 of this invention. It is explanatory drawing which shows the error count threshold value control table stored in the frame count threshold value control table storage part 21. FIG. It is a block diagram which shows the digital broadcast receiver by Embodiment 3 of this invention. It is a block diagram which shows the digital broadcast receiver by Embodiment 4 of this invention. It is a block diagram which shows the digital broadcast receiver by Embodiment 5 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 MPEG-TS separation part (decoding means) 2 MPEG video decoding part (decoding means) 3 Decoding error count part (error count means) 4 Video display determination part (display unit switching means) 5 Video display Switching unit (display unit switching unit), 6 video display unit (video display unit), 7 display frame count unit (frame count unit), 8 video display determination unit (display unit switching unit), 11 error count threshold control table storage unit , 12 error count threshold extraction unit, 13 error count determination unit, 14 error count display switching instruction unit, 16 error count threshold extraction unit, 15 error count threshold extraction unit, 21 frame count threshold control table storage unit, 22 frame count threshold extraction Section, 23 frame count determination section, 24 frame count display switching instruction section, 25 frames Count threshold value extraction unit, 26 frame count threshold value extraction unit, 31 slice display position detection unit (error count unit), 32 error non-count instruction unit (error count unit), 33 motion vector extraction unit (display unit switching unit), 34 motion Vector threshold value determination unit (display unit switching unit), 35 program information extraction unit (display unit switching unit), 36 program information threshold value determination unit (display unit switching unit).

Claims (10)

  It is counted by the decoding means for decoding the video data contained in the digital broadcast wave in a designated display unit, the error counting means for counting the number of errors in the decoding process in the decoding means, and the error counting means. The display unit of the video is determined according to the number of errors, and the display unit switching means for instructing the decoding means to decode the display unit, and the video according to the video data decoded by the decoding means. A digital broadcast receiver comprising a video display means for displaying.   The display unit switching means compares the threshold value corresponding to the current display unit with the number of errors counted by the error count means, and determines the display unit of the video according to the comparison result. Digital broadcast receiver.   3. The digital broadcast receiving apparatus according to claim 1, wherein the video display means determines a video display unit as one of a slice unit, a picture unit, and a sequence unit.   Frame counting means for counting the number of frames of the video displayed by the video display means is provided, and the display unit switching means determines the video display unit according to the number of frames counted by the frame counting means, 2. The digital broadcast receiving apparatus according to claim 1, wherein a decoding process is instructed to decoding means.   5. The display unit switching means compares the threshold value corresponding to the current display unit with the number of frames counted by the frame counting means, and determines the video display unit according to the comparison result. Digital broadcast receiver.   When an error occurs in the decoding process in the decoding unit, the error count unit specifies a slice in which the error has occurred, and the display position of the slice is included in a preset display range 6. The digital broadcast receiving apparatus according to claim 1, wherein the number of errors is not counted.   The display unit switching unit acquires a motion vector used in the decoding process from the decoding unit, and determines a display unit of the video in consideration of the magnitude of the motion vector. 6. The digital broadcast receiver according to claim 6.   8. The digital broadcast receiving apparatus according to claim 7, wherein the display unit switching means corrects the threshold corresponding to the current display unit in accordance with the magnitude of the motion vector used in the decoding process from the decoding means.   9. The display unit switching means extracts program information included in a digital broadcast wave, and determines a video display unit in consideration of a program genre indicated by the program information. The digital broadcast receiver according to any one of the above. 10. The digital broadcast receiving apparatus according to claim 9, wherein the display unit switching means corrects the threshold corresponding to the current display unit according to the program genre indicated by the program information.

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