JP2550860B2 - Image decoding device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image receiving device,
In particular, the present invention relates to an image decoding device in an image transmission system that multiplexes and transmits a plurality of channel moving images encoded by an encoding method including inter-frame prediction.

[0002]

2. Description of the Related Art Conventionally, in a system in which moving images of a plurality of channels are time-division multiplexed and transmitted, a method of directly quantizing an input moving image and transmitting it when encoding a moving image of each channel, , Which uses a method of encoding by using the correlation only in the image frame of the input moving image has been put into practical use. Further, in an image receiving device of an image transmission system that multiplexes and transmits a moving image of a plurality of channels encoded by an encoding method including interframe prediction, a mode of use in which the channel is fixed and the moving image is decoded Is taking

[0003]

Of the above-mentioned conventional techniques, image decoding of an image transmission system for time-division multiplexing and transmitting a plurality of channels of moving images encoded by an encoding method including interframe prediction When the channel switching is performed in the apparatus, there is a problem that the decoded image is disturbed in the image area coded by the inter-frame prediction at the time of switching.

That is, in an image transmission system in which moving images of a plurality of channels encoded by an encoding method including inter-frame prediction are time-division multiplexed and transmitted, an image decoding apparatus decodes any one channel. When switching the channel to be used from the first channel to the second channel, when the second channel is displayed at the same time as switching, the area of the video frame to which inter-frame prediction was applied at the time of encoding is not normally reproduced. However, the image is disturbed.

An object of the present invention is to solve this problem by detecting the time when the entire area of the moving picture frame is normally reproduced and then displaying the moving picture.

[0006]

The present invention provides an image decoding apparatus for an image transmission system for time-division multiplexing and transmitting a plurality of channel moving images encoded by an encoding method including interframe prediction. A channel selector that selects an arbitrary channel designated from the converted input code data, and code data output from the channel selector
An image decoder for decoding into image frames, said tea
Frame from the code data output from the channel selector
Detect coded data that is coded using only inner correlation
The coded data of which area of the image frame
A detector that outputs address information indicating whether or not
Area information memory for accumulating dress information, and the area information
The contents of the memory are monitored, and after switching channels, the image frame
At least once for all regions of the
Encoded using, the whole area of the image frame is
A control to stop the image output until the time when the image is reproduced is detected.
Control unit that outputs a control signal, and a control signal from the control unit
, The image decoding
The output of the instrument is fixed at a preset level, and
If the control signal of is to instruct cancellation of the image output,
Outputs the image frame decoded by the image decoder
And a gate circuit for outputting as a force .

[0007]

FIG. 1 shows an embodiment of an image decoding apparatus according to the present invention.

The code input data 10 is generated by an image transmitting device, and moving images of a plurality of channels encoded by an encoding method including interframe prediction are time-division multiplexed. This signal is input to the channel selector 1.

The channel selector 1 selects an arbitrary moving image channel from the input code input data 10 according to an instruction (channel selection (instruction) signal 71) from the control section 7,
Output to the input buffer 2.

The input buffer 2 speed-smooths the code data of the instructed channel input from the channel selector 1 at high speed and discontinuously, and supplies it to the image decoder 3 and the refresh detector 5 as the channel code data 23. Output. The image decoder 3 has a function of decoding the moving image coded data including the inter-frame prediction into a moving image frame, and outputs the decoded moving image frame.

The operation of the gate circuit 4 is controlled by the gate control signal 74 from the control section 7, and the gate control signal 74
When the command to erase the image is issued, a fixed level signal is output as the image output 100 (mute). When the gate control signal instructs to output the moving image, the decoded image 34 is output as the image output 100.

The refresh detector 5 encodes code data from the channel code data 23, which is coded by using only the correlation within a frame (encoding by this method is called refresh, and is coded by refresh. Area is referred to as a refresh area), and a refresh address 56 is output as address information indicating which area of the image frame the code data belongs to. The refresh address 56 is stored in the area information memory 6. From the memory 6, the area information 67 is stored in the control unit 7
Sent to

For the code input data 10 to be input,
When the channel selected by the channel selector 1 is switched, the area coded using interframe prediction is decoded with reference to the content of the previous frame, that is, the image of the corresponding area immediately before the different channel. Therefore, a normal image cannot be restored. On the other hand, in the refresh area,
Since only the pixels in the frame are referenced, a normal image frame is reproduced. Further, after the channel is switched, a normal image is reproduced even in the area that has been refreshed even once, and thereafter, the data encoded using the interframe prediction.

Utilizing this, the control unit 7 monitors the contents of the area information memory 6 and detects the time when all the areas are refreshed at least once, so that the subsequent decoded image is an image. It can be known that the moving image frame input to the transmission device is normally reproduced.

After switching the channels, the control unit 7 keeps the image output 100 at a fixed level by the gate control signal 74 until it detects the time when the whole area of the moving image frame is normally reproduced by the above-mentioned means and keeps the normal level. The output of the moving image frame in which the reproduced area and the non-reproduced area are mixed as the image output 100 is stopped (muted).

The above operation is shown in FIG. In addition, in FIG.
Although the code input data, the channel selection signal, the channel code data, and the gate control signal are shown, it should be noted that they are shown in two stages, upper and lower.

The code input data 10 is input as multiplexed image coded data of 3 channels in FIG. In the channel selector 1, the channel 2 is selected by the channel control (instruction) signal 71 from the controller 7. In the figure, a channel selection signal is an internal signal of the channel selector 1, and outputs the code input data 10 to the input buffer 2 when this signal shows the level of 0.

Channel code data 23 is an output signal from the input buffer 2 of FIG. 1, and the signal of channel 2 selected from the code data 10 is subjected to speed smoothing and output to the image decoder 3 and the refresh detector 5. ing. In the channel code data 23, the portion marked PSC is a flag indicating the beginning of one moving image frame. Also, the shaded portion indicates the code of the refresh area. Figure 2
In, in one moving image frame, refresh is executed at two places. Further, the area shaded by dots shows the code data for the once refreshed area after the channel switching. That is, in the moving image frame, the moving image data encoded by the encoding device is normally restored in the area corresponding to the code indicated by the diagonal lines and the hatching. As the moving image frame is input, the region that is normally restored expands, and in the figure, it is shown that the entire region of the frame is restored normally when the fifth moving image frame is decoded. Shows. At this point, the control unit 7 determines that the gate control signal 74
The image output stop (mute) is released by.

[0019]

As described above, the image decoding device according to the present invention includes a channel selector for selecting an instructed arbitrary channel from the multiplexed input code data.
An image decoder for decoding the code output from the channel selector, a frame buffer for accumulating at least one image frame of the output of the image decoder, and an image with the output of the frame buffer fixed to a preset level And a means for detecting an area encoded by only the intra-frame correlation of the image from the output of the channel selector, and an area information memory for accumulating the detection result. The image output can be muted until the time point at which all the areas are normally reproduced is detected, and the output of the moving image frame in which the normally reproduced areas and the not-reproduced areas are mixed can be avoided.

[Brief description of drawings]

FIG. 1 is a diagram showing an embodiment of an image decoding apparatus according to the present invention.

FIG. 2 shows operation timing of the image decoder shown in FIG.

[Explanation of symbols]

 1 Channel Selector 2 Input Buffer 3 Image Decoder 4 Gate Circuit 5 Refresh Detector 6 Area Information Memory 7 Controller

Claims (2)

(57) [Claims] 1. An image decoding device of an image transmission system for time-division multiplexing and transmitting a plurality of channel moving images encoded by an encoding method including inter-frame prediction, in which input code data is multiplexed. A channel selector for selecting an arbitrary channel instructed from, and the code data output from the channel selector is used as an image stream.
From the image decoder for decoding to the frame and the code data output from the channel selector
Code data encoded using only intra-frame correlation
Of the region of the image frame
A detector for outputting address information indicating whether or not the address information is stored, an area information memory for accumulating the address information, a content of the area information memory is monitored, and channel switching is performed.
Then the whole area of the image frame is framed at least once
The entire image frame is encoded using only the inner correlation.
Image output until the time when the area is reproduced normally is detected
A control unit for outputting a control signal for stopping the image output, and a control signal from the control unit for stopping the image output
In this case, the output of the image decoder is set to a preset level.
Fixed to the bell and the control signal from the control unit releases the image output
, The image is decoded by the image decoder.
Circuit that outputs the captured image frame as image output
Image decoding apparatus characterized by having, when. 2. The image decoding device according to claim 1, further comprising a frame buffer for accumulating at least one image frame of an output of the image decoding device, between the channel selector and the image decoding device. Device.