TH82415A - Combined bluema and chroma decoders - Google Patents

Abstract

The DC60 invention here provides a video encoder, signal decoder. Consistent videos and methods Video encoder for encoding video signals to The image block contains a encoder (100) for encoding all the color components of the data. Video signal using a common predictor (315), a video signal decoder for decoding The video signal provided to a block of images is composed of a decoder (200) for every decoder. Color components of the video signal data using a common predictor (430). The method for encoding and decoding the signal for a block of images consists of an encoder. And a decoder for encoding / decoding the color components of the video signal without any residual color conversion. Video Encoders and Decoders for encoding / decoding video signal data to a block of images contains an encoder and a decoder. For encoding / decoding video signal data using a unique unique predictor for each Color component of video signal information The invention here provides a video encoder, a decoder. Consistent videos and methods Video encoder for encoding video signals to The image block contains a encoder (100) for encoding all the color components of the data. Video signal using a common predictor (315), a video signal decoder for decoding The video signal provided to a block of images is composed of a decoder (200) for every decoder. Color components of the video signal data using a common predictor (430). A method for encoding and decoding the signal data for a block of illustrations with an encoder. And a decoder for encoding / decoding the color components of the video signal without any residual color conversion. Video Encoders and Decoders for encoding / decoding video signal data to a block of images contains an encoder and a decoder. For encoding / decoding video signal information using a unique inductor that is unique for each Color component of video signal information

Claims (2)

Disclaimer (all) which will not appear on the advertisement page: EDIT 22/03/2017 1. A device to decode the video signal to a block of images. Such a set of equipment Included Decoder for decoding the color components of the video signal data without any residual conversion, the decoder decodes every color component of the video signal data using a predictor. Color components Where the sample video signal is compliant with the 4: 4: 4 format. 2. The equipment according to claim 1 also includes subsequent decoding, inverse color conversion modules, signal connected to Such decoder to perform inverse color conversion on color components. The decoding of the video signal data before decoding of the color components by the aforementioned decoder 3. Equipment set according to claim 2, wherein the inverse color conversion performed by decoding in Subsequently, the inverse color conversion module is a non-residual color conversion 4. Kit according to claim 2 where such subsequent decoding, the color conversion module Inverse performs inverse color conversion on the original image corresponding to the video signal data 5. Kit according to claim 2, where such subsequent decoding, the color conversion module Inverse provides the converted color component of the video signal data to RGB or any non-RGB format 6. Kit according to claim 1, where the co-predictor is the lumina predictor used for the component. Both the luma and the chroma of the video signal data 7. The equipment set according to claim 2, where the decoder uses a common spatial prediction mode. For all color elements of the video signal data 8. Kit according to claim 7, where the common spatial prediction mode is defined by prev_intra 8x8_pred _mode_flag, rem_intra8x8_pred_mode, prev_intra4x4_pred_mode_flag, and rem_intra 4x4_pred_mode. Parameters according to the H.264 standard of the International Telecommunication Union Telecommunication Sector 9. The equipment set according to claim 1, where the decoder uses a circuit to estimate the range. This is the same set for B and P frames for all color components of video signal information. 1 0. Method for decoding video signal information for a block of image. How to do it This decoding process decodes every color component of the video signal data using a co-prediction component. The video signal sample corresponds to the 4: 4: 4 format 1 1. A method of claim 10 that also includes a subsequent decoding process for the Perform an inverse color conversion on the color component of the video signal data of choice 1 2. Method according to claim 11, wherein the inverse color conversion performed by the decoding procedure. The later decoding process is a non-residual color conversion. 1 3. Method of claim 11 where the decoding process later will perform color conversion. Inversely on the original image corresponding to the video signal information 1 4. Method of claim 11, whereby such subsequent decoding process will provide The converted color component of the video signal data in RGB or any non-RGB format 1. 5. Method according to Claim 10, where the co-predictor is the luma predictor used for the component. Both luma and chroma of video signal data 1 6. Method of claim 10 where the decoding process uses a common spatial prediction mode. For all the transformed color components of the video signal 1 7. The method of claim 16 where the spatial prediction mode is defined by prev_ intra 8x8_pred_mode_flag, rem_intra8x8_pred_mode, prev_intra4x4_pred_mode_flag, and rem_intra 4x4_pred_mode. Parameters according to the H.264 standard of the International Telecommunication Union, Telecommunication Sector 1 8. Method according to claim 10, where the decoding process uses a circuit to estimate the range. This is the same set for B and P frames for all the converted color components of the video signal information. ------- 1. A unit for decoding the video signal information to a block of images. It includes a decoder (200) for decoding the color components of the signal information. Video without residual color conversion 2. Kit according to claim 1, which, as mentioned above, also contains a color conversion module. The inverse for later decoding (293), in which a signal is connected to the aforementioned decoder to make Inverse color conversion on the color components of the video signal data before decoding the components. Of the color by the aforementioned decoder, depending on the selection 3. The kit is in accordance with claim 2, where the inverse color conversion performed by the module in the The inverse color conversion for subsequent decoding (293) is a non-residual color conversion 4. Kit according to claim 2, where the inverse color conversion module for later decoding (293). Inverse color conversion will be performed on the original image corresponding to the video signal data. 5. Kit according to claim 2, where the inverse color conversion module for later decoding (293) provides components of The converted color of the video signal information to Such encoders are in RGB format or any non-RGB format. 6. Kit pursuant to claim 1, whereby the encoder (200) will decrypt every code. The color component of the video signal data using a co-predictor 7. Equipment set according to claim 6 where the co-predictor is the lumama predictor used for Both luma and chroma components of the video signal data 8. A set of equipment according to claim 1, where the decoder (200) uses prediction mode. 9. Common spatial for all color components of video signal data 9. Equipment set according to claim 8, where such common spatial prediction mode is defined by The parameters according to the H.264 standard of the International Telecommunication Union, Telecommunication Sector are as follows: prev_intra8x8_pred_moode_flag, rem_intra8x8_pred_mode, prev_intra4x4_pred_mode_flag and rem_intra4x4_pred_mode 1 0. The equipment set according to claim 1 where the decoder (200) uses a filter circuit to Estimate in the same range for frames B and P for all color components of Video Signal 1 1. Kit according to claim 1, where sample extraction of video signal data corresponds to 4: 4 format: 4, 4: 2: 2 and 4: 2: 0 any form of the International Telecommunication Union, Telecommunication Sector 1 H.264 standard 2. Method for decoding video signal information to a block of image. Contains the encoding (300) of the color components of the video signal without residual color conversion. 1 3. The method according to claim 12, which is mentioned above, also contains a later decoding procedure (494) for color conversion. Inverse-based color component of video signal data is chosen, however, 1 4. Method according to claim 13, wherein the inverse color conversion performed by the Such later decoding (494) is a non-residual color conversion 1 5. Method according to claim 13 whereby a later decoding procedure (494) performs inverse color conversion on the original image. Conforms to Video Signal Data 1 6. Method to Claim 13 whereby such a later decoding procedure (494) will provide a converted color component of the video signal data for the following encoding procedure. It is stated in RGB format or any format other than RGB 1. 7. Method according to claim 12 whereby the decoding process decodes the component. Of the total color of the video signal data using a co-predictor (430) 1 8. Method of claim 17 where such a co-predictor is a luma predictor used for Both luma and chroma components of video signal data 1 9. Method of claim 12 where the decoding process uses a predictive mode. The common space for all the transformed color components of the video signal data 2 0. Method to claim 19 whereby such common spatial prediction mode is defined by The parameters according to the H.264 standard of the International Telecommunication Union, Telecommunication Sector are as follows: prev_intra8x8_pred_moode_flag, rem_intra8x8_pred_mode, prev_intra4x4_pred_mode_flag and rem_intra4x4_pred_mode 2. 1. Method according to claim 12, where the decoding process uses a filter circuit to Estimates at the same interval for frames B and P for all color components with Plotted of video signal data 2 2. Method according to claim 12, where the sample extraction of the video signal data corresponds to any 4: 4: 4, 4: 2: 2 and 4: 2: 0 formats of the International H.264 standard. Telecommunication Union, Telecommunication Sector