Video-coding device and video-decoding device
First Claim
1. A video coding device for hierarchically encoding a video image sequence by obtaining prediction-error signals between an input object image frame and a predicted image frame provided through performing motion-compensated interframe-prediction of a digital video image signal, dividing the prediction-error signals into predetermined frequency-band-components, hierarchically encoding the frequency-band-components one by one and outputting a coded signal to be transmitted and, at the same time, decoding the coded components one by one, generating a decoded image frame from the decoded prediction error signal and the predicted frame and looping-back the decoded image frame to be used for motion-compensated interframe-prediction of a subsequent image, wherein hierarchical loop-back control means is provided for selecting execution or non-execution of looping-back for each of the frequency-band components.
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Accused Products
Abstract
A video-coding device and a video-decoding device, which are capable of assuring the necessary quality of a video sequence even if a transmission error and/or a loss of information occurs in a transmission line and preventing the propagation of decoding error to subsequent images, and can effectively retransmit the necessary coded information when a transmission error and/or a loss of information occurs in a transmission line. A motion-compensated interframe-predicting portion predicts an input image by using a preceding decoded image stored in a frame memory portion and outputs motion vectors. A difference calculating portion determines a difference between the input image signal and the predicted image signal and outputs the difference as a prediction-error signal to a band-dividing portion which in turn divides the prediction-error signal into n hierarchical layers of frequency-band-components and outputs them to respective coding portions. A loop-back control portion decides whether each of the coded frequency-band-components of the coded prediction-error signal from respective coding portions is input to a synthesizing portion and outputs a decoded prediction-error signal. The predicted image signal and the decoded prediction-error signal are combined to generate a decoded image signal corresponding to the input image. The decoded image signal is used for prediction of a subsequent input image. A motion-compensated interframe-predicting portion predicts an input image by using a preceding decoded image stored in a frame memory portion and outputs motion vectors. A difference calculating portion determines a difference between the input image signal and the predicted image signal and outputs the difference as a prediction-error signal to a band-dividing portion which in turn divides the prediction-error signal into n hierarchical layers of frequency-band-components and outputs them to respective coding portions for quantizing and encoding the respective components. Buffer portions store the coded information and output the information to an external circuit. The buffers output respective frequency-band-components of the coded information according to retransmission request signals from a retransmission control portion.
48 Citations
10 Claims
- 1. A video coding device for hierarchically encoding a video image sequence by obtaining prediction-error signals between an input object image frame and a predicted image frame provided through performing motion-compensated interframe-prediction of a digital video image signal, dividing the prediction-error signals into predetermined frequency-band-components, hierarchically encoding the frequency-band-components one by one and outputting a coded signal to be transmitted and, at the same time, decoding the coded components one by one, generating a decoded image frame from the decoded prediction error signal and the predicted frame and looping-back the decoded image frame to be used for motion-compensated interframe-prediction of a subsequent image, wherein hierarchical loop-back control means is provided for selecting execution or non-execution of looping-back for each of the frequency-band components.
- 5. A video-decoding device for decoding coded signals by a hierarchical coding method, which obtains decoded prediction-error signals by decoding coded prediction-error signals of predetermined frequency-band components, said coded prediction-error signals provided by obtaining a prediction-error signal through performing motion-compensated interframe-prediction, dividing the prediction-error signal into predetermined frequency-band-components and encoding the frequency-band-components, obtains decoded prediction-side-information by decoding coded-prediction-side-information on the motion-compensated interframe-prediction, generates a decoded image-frame from the prediction-side-information and a reference predicted image-frame and generates a decoded video image signal from the decoded predicted image-frame and the coded prediction-error signals, wherein a hierarchical loop-back means is provided for obtaining the reference predicted image-frame used for obtaining the decoded predicted image-frame and is capable of individually selecting execution or non-execution of looping-back for each of the frequency-band components.
- 7. A video coding device for hierarchically encoding a video sequence by obtaining prediction-error signals between an input object image frame and a predicted image frame provided through performing motion-compensated interframe-prediction of a digital video signal, dividing the prediction-error signals into predetermined frequency-band-components, hierarchically encoding the frequency-band-components one by one and outputting a coded signal to be transmitted, wherein hierarchical retransmission control means is provided for switching from retransmitting to non-retransmitting the coded information and vice versa for each of the frequency-band components.
- 9. A video-decoding device for decoding coded signals by a hierarchical coding method, which obtains decoded prediction-error signals by decoding coded prediction-error signals of predetermined frequency-band components, said coded prediction-error signals previously provided by obtaining a prediction-error signal through performing motion-compensated interframe-prediction, dividing the prediction-error signal into predetermined frequency-band components and encoding the frequency-band components, obtains a decoded prediction-side-information by decoding coded information signals coming on including coded prediction-side-information on the motion-compensated interframe-prediction, generates a decoded image-frame from the prediction-side-information and a reference predicted image-frame and generates a decoded video image signal from the decoded predicted image frame and the decoded prediction-error signals, wherein a retransmission-request control means is provided for switching a retransmission-request for the coded information signal including each frequency band of the prediction-error signal either to be sent or not for each frequency-band.
Specification
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- Resources
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Current AssigneeSharp Kabushiki Kaisha (Hon Hai Precision Industry Co., Ltd.)
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Original AssigneeSharp Kabushiki Kaisha (Hon Hai Precision Industry Co., Ltd.)
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InventorsSato, Seiji, Hibi, Keiichi
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Primary Examiner(s)Kelley, Chris S.
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Assistant Examiner(s)PHAM, LY D
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Application NumberUS09/057,497Time in Patent Office831 DaysField of Search348/397, 348/398, 348/408, 348/384, 348/390, 348/400, 348/401, 348/402, 348/409, 348/415, 348/416, 382/232, 382/233, 382/236, 382/238US Class Current375/240.11CPC Class CodesH04N 19/102 characterised by the elemen...H04N 19/61 in combination with predict...H04N 19/63 using sub-band based transf...H04N 19/89 involving methods or arrang...
