WO1998036577A1 - Predictive coding method and decoding method for dynamic image - Google Patents
Predictive coding method and decoding method for dynamic image Download PDFInfo
- Publication number
- WO1998036577A1 WO1998036577A1 PCT/JP1998/000305 JP9800305W WO9836577A1 WO 1998036577 A1 WO1998036577 A1 WO 1998036577A1 JP 9800305 W JP9800305 W JP 9800305W WO 9836577 A1 WO9836577 A1 WO 9836577A1
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- WIPO (PCT)
- Prior art keywords
- motion compensation
- decoding
- macroblock
- global motion
- image
- Prior art date
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- H04W88/08—Access point devices
- H04W88/085—Access point devices with remote components
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/16—Gateway arrangements
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S370/00—Multiplex communications
- Y10S370/901—Wide area network
- Y10S370/902—Packet switching
- Y10S370/903—Osi compliant network
- Y10S370/906—Fiber data distribution interface, FDDI
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S370/00—Multiplex communications
- Y10S370/901—Wide area network
- Y10S370/902—Packet switching
- Y10S370/903—Osi compliant network
- Y10S370/907—Synchronous optical network, SONET
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S707/00—Data processing: database and file management or data structures
- Y10S707/99941—Database schema or data structure
- Y10S707/99943—Generating database or data structure, e.g. via user interface
Definitions
- the present invention relates to a video signal encoding method and a video signal decoding method.
- the target image (current frame) is usually divided into 16-pixel x 16-line blocks (hereinafter referred to as macroblocks), and each macroblock is used for the reference image (reference frame).
- the motion amount motion vector: horizontal component (movement amount) is tx and vertical component (movement amount) is ty) is detected, and the block corresponding to the macroblock of the current frame in the reference image is shifted by the motion vector.
- the difference between the predicted image and the current frame is generated by encoding the difference between the frames.
- the image that best matches the image data at the coordinates (X, y) of the current frame is calculated using the above motion vector (tx, ty), using the coordinates (x, y) of the predicted image data in the reference frame. , Y,) as follows.
- the encoding target image (data) 1 (input image 1) and the reference image (de-night) 3 are input to the mouth-to-mouth motion detector 4, where the mouth-to-head motion parameter for the entire screen is obtained. Evening 5 is required.
- the motion model used here include projection transformation, bilinear transformation, and affine transformation. The method of Yasuzawa et al. Can be applied to any motion model, regardless of the type of motion model, but these typical motion models will be briefly described.
- y ' (cx + dy + tx) / (px + qy + s) ⁇ ) where a to d, p, q, and s are constants.
- tx and ty respectively represent horizontal and vertical translation amounts.
- the parameter a represents the horizontal scaling / reversal
- the parameter d represents the vertical scaling Z reduction or reversal.
- Parameter b indicates horizontal shear
- parameter c indicates vertical shear.
- the global motion parameters 5 obtained by the global motion detector 4 are input to the global motion compensator 6 together with the reference images 3 stored in the frame memory 2.
- the global motion compensation unit 6 applies a motion vector for each pixel obtained from the global motion parameter 5 to the reference image 3 to generate a global motion compensation prediction image (data) 7.
- the reference image 3 stored in the frame memory 2 is input to the local motion detection unit 8 together with the input image 1.
- the local motion detecting section 8 detects a motion vector 9 between the input image 1 and the reference image 3 for each macro pixel of 16 pixels X 16 lines.
- the local motion compensation unit 10 generates a local motion compensation prediction image (data) 11 from the motion vector 9 for each macroblock and the reference image 3. This is the motion compensation method used in conventional MPEG and the like.
- the prediction mode selection unit 12 selects, for each macroblock, one of the global motion compensation predicted image 7 and the local motion compensated predicted image 11 in which the error relating to the input image 1 is smaller.
- the predicted image 13 selected by the prediction mode selector 1 2 is subtracted
- the difference image 15 between the input image 1 and the prediction image 13 is converted into a DCT coefficient 17 by a DCT (distributed cosine transform) unit 16.
- the DCT coefficient 17 obtained from the DCT section 16 is converted into a quantization index 19 by the quantization section 18.
- the quantization index 19, the global motion parameters 5 and the motion vector 9, and the prediction mode selection information 26 output from the prediction mode selection unit 12 are transmitted to the encoding units 101 to 104, respectively. After being individually encoded, they are multiplexed by a multiplexing unit 27 'to become an encoder output (encoded bit string) 28'.
- the quantization index 19 is returned to the quantization representative value 21 by the inverse quantization unit 20, and further the inverse 0 ( Is inversely transformed into a difference image 23.
- the difference image 23 and the prediction image 13 are added by an adder 24 to obtain a locally decoded image 25.
- This locally decoded image 25 is stored in the frame memory 2. It is used as a reference image when encoding the next frame.
- the decoder (Fig. 4), first, the coded bit string 28, which has been received, is separated by the separator 29 'into the coded quantization index 19, prediction mode selection information 26, motion vector 9, global motion The parameters are separated into four (5), and each of them is decoded by the decoding units 201 to 204.
- the reference image 3 (same as the reference image 3 shown in FIG. 3) stored in the frame memory 33 is input to the global motion compensator 34 together with the decoded global motion parameter 5.
- the global motion compensation unit 34 applies the global motion parameter 5 to the reference image 3 to generate the same global motion compensation prediction image 7 as in FIG.
- the reference image 3 is also input to the oral motion compensation unit 35.
- the oral motion compensation unit 35 generates the same oral motion compensation predicted image 11 as in FIG. 3 by applying the motion vector 9 to the reference image 3.
- the global motion compensation prediction image 7 and the local motion compensation prediction image 11 are input to the prediction mode selection unit 36.
- the prediction mode selection unit 36 selects the global motion compensation prediction image 7 or the local motion compensation prediction image 11 based on the decoded prediction mode selection information 26, and sets this as the prediction image 13.
- the decoded quantization index 19 is returned to the quantization representative value 21 by the inverse quantization unit 30 and further inversely transformed into the difference image 23 by the inverse DCT unit 31.
- the difference image 13 and the prediction image 23 are added by the adder 32 to form a locally decoded image 25.
- the local decoded image 25 is stored in the frame memory 33 and used as a reference image when decoding the next frame.
- the global motion compensation prediction method selects a smaller prediction error for each macroblock from a prediction image based on global motion compensation and a prediction image based on local motion compensation, and improves the prediction efficiency of the entire frame. To enhance.
- FIG. 5 is a diagram schematically illustrating the data structure (bit stream structure) in Table 1, where the data is represented in the order of the codewords indicated by D1 to D8, the motion vector, and the DCT coefficient information (quantization index). Be composed.
- VOPs video 'object' planes
- I-, P-, ⁇ - VOP is the same as I-, P-: B-picture in MPEG-1 and MPEG-2.
- SPRITE-VOP is a concept newly added in MPEG-4, and is a background image (static image) of an entire video clip in a moving image sequence. VOP predicted from the dynamic splice obtained by global motion compensation.
- I-VOP and B-voP- are omitted for simplicity.
- shape information is also described in order to encode an arbitrary-shaped video object, but this is omitted for simplicity.
- MCSEL a 1-bit codeword (D 1) called MCSEL is output as prediction mode selection information 26.
- COD is a 1-bit codeword (D2) called COD.
- D2 a 1-bit codeword
- COD is a flag indicating whether or not the current macroblock has been skipped.
- Macroblock skip is applied when the macroblock type is I NTER, the motion vector is (0, 0), and the DCT coefficients are all 0. Since it is not necessary to encode the macroblock type, motion vector information, and DCT coefficient, significant compression is possible.
- COD 1, skip all of the following and proceed to the next macroblock process.
- MCBPC variable-length codeword
- a codeword (D4) called Acpred_flag is output.
- the encoder outputs a variable-length codeword (D5) called CBP Y.
- CB PY indicates whether or not the DCT coefficients of the four luminance signal blocks exist.
- DQUANT variable length codeword
- the motion vector information (D7) is output.
- D 8 the DCT coefficient information of each 8 ⁇ 8 block included in the 16 ⁇ 16 macro block is output as a quantization index 19 (D 8).
- the macroblock type is frame MCSEL is output even in the inner coding mode (INTRA or INTRA + Q).
- the specification of MCSEL is meaningless because neither global motion compensation nor dynamic motion compensation is used. Therefore, in this case, there is a problem that one bit of unnecessary information is added to one macroblock.
- the overhead information occupies only a small percentage of the total data, which is not a problem.
- the need for low-rate video transmission has increased.
- the proportion of overhead information inevitably increases, and the need to reduce overhead information is increasing.
- the MCSEL has one bit per macroblock.
- Images require as many as 99 bits.
- an object of the present invention is to provide a method for predictive encoding of a moving image having two types of prediction modes, a global motion compensation mode and a local motion compensation mode, in which unnecessary M CSEL is reduced by as much as one bit and compression is performed. Predictive marks in video to improve efficiency
- An object of the present invention is to provide an encoding method and a corresponding moving image decoding method.
- the present invention provides a method for predictive coding of a moving image, which selectively performs a global motion compensation step and a local motion compensation step, wherein a processing block comprises the global motion compensation step or the local motion compensation step.
- the processing block is an inter-frame coded block
- the prediction mode selection codeword indicating which one of the motion compensation steps has been used for prediction is selected from the block in the data sequence obtained by coding the processing block.
- a method is provided as a first method in which the method is inserted after the codeword indicating the encoding mode of the above, and otherwise, the prediction mode selection codeword is not inserted into the data sequence.
- the method of selecting the global motion compensation step whenever the processing block is skipped and omitting the prediction mode selection codeword in the skipped block is described in a second method. It is provided as a method.
- the present invention provides a decoding method for decoding a data sequence encoded by the first method, wherein the processing block is encoded from the encoded data sequence when the processing block is inter-frame encoded.
- a method is provided for reading the prediction mode selection codeword and decoding using the selected prediction method, and otherwise not reading the prediction mode selection codeword.
- the global motion compensation step is performed without reading the prediction mode selection codeword. And a method for performing a decoding process corresponding to.
- the macroblock type is the intra-frame coding mode, that is, INTRA or INTRA + Q
- the flag (MCSEL) indicating whether or not it was used is not necessary.
- the decoder since the MCSEL is located before the codeword (MCBPC) indicating the macroblock type, the decoder cannot determine whether the MCSEL is necessary until the MCBPC is read. Regardless of whether the macroblock type is the intra-frame coding mode or not MCSEL had to be added to all macro programs.
- the MCSEL is positioned after the MCCBPC.
- the decoder can determine whether or not MCSEL comes after reading the macroblock type. Therefore, in the case of the intra-frame encoding mode, it is not necessary to add MCSEL, and unnecessary overhead information can be reduced.
- macroblock skipping is performed mostly in the case of global motion compensation, and macroblock skipping hardly occurs in the case of local motion compensation. Therefore, even in the case of macroblock skip, MCSEL is practically unnecessary.
- the macroblock skip is limited to the case of the global motion compensation, and the MCSEL at the time of skipping the macroblock can be deleted, so that extra overhead information is further added. Can be reduced.
- unnecessary MCSELs can be reduced by as much as one bit, and unnecessary overhead information is reduced to improve compression efficiency. Can be.
- the present invention provides a recording medium recording a program for causing a computer to execute any of the above-described methods, and a computer-readable recording medium recording data encoded by any of the above-described decoding methods. What to provide. BRIEF DESCRIPTION OF THE FIGURES
- FIG. 1 is a diagram showing a configuration of an encoder according to an embodiment of the present invention.
- FIG. 2 is a diagram showing a configuration example of a decoder corresponding to the encoder of FIG.
- FIG. 3 is a diagram showing a configuration of a conventional encoder.
- FIG. 4 is a diagram showing a configuration example of a decoder corresponding to the encoder of FIG.
- Figure 5 is a diagram schematically showing the data structure (bit stream structure) in Table 1.
- Figure 6 is a diagram schematically illustrating the data structure (bit stream structure) in Table 4.
- FIG. 7 is a diagram schematically showing the data structure (bit stream structure) of Table 5.
- FIG. 8 is a flowchart (part 1) of the entire predictive coding program for a moving image.
- Fig. 9 is a flowchart (part 2) of the whole video predictive coding program
- FIG. 10 is a flowchart (No. 1) showing an example of a conventional macro block layer multiplexing process.
- FIG. 11 is a flowchart (part 2) illustrating an example of conventional macroblock layer multiplexing processing.
- FIG. 12 is a flowchart (part 1) illustrating an example of a macroblock layer multiplexing process according to the (first) method of the present invention.
- FIG. 13 is a flowchart (part 2) illustrating an example of a macroblock layer multiplexing process according to the (first) method of the present invention.
- FIG. 14 is a flowchart (part 1) illustrating an example of a macroblock layer multiplexing process according to the (second) method of the present invention.
- FIG. 15 is a flowchart (part 2) illustrating an example of a macroblock layer multiplexing process according to the (second) method of the present invention.
- FIG. 16 is a flowchart of the whole video predictive decoding program.
- FIG. 17 is a flowchart (part 1) showing an example of conventional macroblock layer separation and decoding processing.
- FIG. 18 is a flowchart (part 2) showing an example of conventional macroblock layer separation and decoding processing.
- FIG. 19 is a flowchart (No. 1) showing an example of separation and decoding processing of a macro block layer multiplexed by the first method.
- FIG. 20 is a flowchart (part 2) illustrating an example of a process of separating and decoding a macro block layer multiplexed by the first method.
- FIG. 21 is a flowchart (part 1) illustrating an example of separation and decoding processing of a macroblock layer multiplexed by the second method.
- -FIG. 22 is a flowchart (part 2) illustrating an example of a process of separating and decoding a macroblock layer multiplexed by the second method.
- FIG. 1 is a diagram showing a configuration of an encoder according to an embodiment of the present invention.
- This encoder differs from the conventional encoder shown in FIG. 3 only in the processing of the multiplexing unit 27. This is because the components and processing flow of the encoder and decoder of the present invention are the same as those of the conventional one.
- the encoded data structure (syntax) of the present invention will be described with reference to Table 4 below.
- Fig. 6 is a diagram schematically showing the data structure (bit stream structure) in Table 4; codewords, motion vectors, and DCT coefficient information (quantization data) shown in D11 to D19. Index) Data is arranged in order.
- the VOP type is ⁇ or SPRI I ⁇
- the aforementioned one-bit code word COD (D 11) is output.
- the macro block skip is applied when the macro block type is INTE, the motion vector is (0, 0), and the DCT coefficients are all 0, as in the conventional example.
- MCSEL predicted when VOP type is SPRI ⁇ ⁇ ⁇
- Mode selection information 26 (D 12) is output.
- the encoder outputs the above-mentioned variable-length codeword MC BPC (D13).
- the VOP type is SPRITE and the macroblock type is INTER or INTER + Q
- the MCSEL 26- (D14) is output following MCBPC.
- the mode selection of the global motion compensation or the local motion compensation is performed by the prediction mode selection unit 12 as in the conventional case.
- the method of election is free.
- the one in which the prediction error becomes smaller may be selected, or the determination may be made in consideration of both the prediction error and the generated code amount.
- the macroblock type is the intra-frame coding mode (INTRA or INTRA + Q)
- the above-described codeword Acpred—flag (D15) is output.
- the encoder outputs the above-mentioned variable-length codeword CBP Y (D16).
- DQUANT variable-length codeword: D17
- a motion vector 9 (D18) is output.
- Output motion vector 9 only when MCS E L 0, that is, when oral motion compensation is used.
- D 19 the quantization index 19
- the DCT coefficient quantization index 19, prediction mode selection information (MCSEL) 26, motion vector 9, and global motion parameter 5 are respectively encoded by the encoding units 101 to 104, and the multiplexing unit 27
- the coded data is multiplexed according to the rules described above, and an encoder output 28 is output.
- the global movement parameter “5” is not included in the macroblock layer syntax (Table 4) because only one set is required for each VOP. In the simplex of Table 4, I-VP and B-VOP are omitted for simplicity.
- shape information is described for encoding a video object having an arbitrary shape as described above, but this is omitted for simplicity.
- FIG. 2 is a configuration diagram of a decoder corresponding to the encoder of FIG. Only the processing of the separation unit 29 is different from the conventional decoder of FIG.
- variable length codeword MC BPC (D13) is read. Then, from the MCBPC, decoding information on the macroblock type and the presence / absence of DCT coefficients of the two color difference signals is obtained.
- MCBPEL is read following MCBPEL (D14).
- CBPY (D16) is read to obtain decoding information indicating the presence or absence of the DCT coefficient of the luminance signal.
- the quantization step information DQUANT (D17) of the variable-length codeword is read.
- the EL activates the switch 36, and when 1 ⁇ 3 £ 2, the global motion compensation prediction image 7 obtained from the reference image 3 and the global motion parameter 5 is used as the prediction image 13 .
- the local motion-compensated preliminary image 11 obtained from the reference image 3 and the motion vector 9 is set as the predicted image 13.
- Fig. 7 is a diagram schematically showing the data structure (bit stream structure) in Table 5, where data is configured in the order of the codewords, motion vectors, and DCT coefficient information shown in D21 to D28. You.
- the encoder outputs a variable-length codeword MCB PC (D22).
- MCSEL D23 is output following MCBPC.
- the method of selecting the motion compensation mode performed by the prediction mode selection unit 12 is optional, and a method that reduces the prediction error may be selected, or may be determined in consideration of both the prediction error and the generated code amount.
- the macroblock type outputs the intra-frame coding mode, that is, I NTRA or I NTRA + (in which case, the codeword Acpredjlag (D 24) is output. Outputs the long codeword C BP Y (D 25) Then, if the macroblock type is I NTER + Q or I NTRA + (in which case, Outputs codeword quantization step information DQUANT (D26).
- a motion vector 9 (D27) is output.
- the motion vector is output only to.
- DCT coefficient information (D28) of each 8 ⁇ 8 program included in the macro program is output.
- the multiplexing unit 27 multiplexes the quantization index 19, the prediction mode selection information (MCSEL) 26, the motion vector 9 and the global motion parameter 5 output according to the rules described above, and outputs the coded data. Outputs 28.
- the global motion parameter 5 is not included in the macroblock layer syntax in Table 5 as in Table 4.
- the codeword COD (D21) is read.
- C ⁇ D 1, the DCT coefficients are all 0, so the obtained predicted image 13 is output as the current macroblock decoded image 25 as it is.
- variable length codeword MCBP C (D22) is read to obtain decoding information on the macroblock type and the presence or absence of the DCT coefficients of the two color difference signals.
- VOP type is SPR ITE and the macroblock type is INTE R or I NTER + Q
- MCBPC followed by MCSEL (D23) Is read.
- CBPY (D25) is read to obtain decoding information of the presence or absence of the DCT coefficient of the luminance signal.
- the macroblock type is INTERA + Q or INTRA + (in that case, the quantization step information DQUANT (D26) of the variable-length codeword is read out.
- DCT coefficient information (D28) of each 8 ⁇ 8 block included in the macro program that is, the quantization index 19 is read.
- the quantization index 19 is returned to the quantization representative value 21 by the inverse quantization unit 30, and is further inversely transformed into the difference image 23 by the inverse DCT unit 31.
- the difference image 23 and the prediction image 13 are added by the adder 32 to obtain a decoded image 25.
- the decoded image 25 is stored in the frame memory 33 and used as a reference image when decoding the next frame.
- FIG. 8 and 9 are flowcharts of the entire predictive coding program for a moving image.
- 1 in FIG. 8 follows the flow of 1 in FIG. 9, and 2 in FIG. follow the flow.
- the multiplexing processing block of the macroblock layer surrounded by a double frame in FIG. 9 is a portion relating to the features of the present invention.
- FIGS. 10 and 11 are flow charts showing an example of the conventional macroblock layer multiplexing process.
- 1 and 2 follow the flows of 1 and ⁇ in FIG. 11, respectively.
- FIGS. 12 and 13 are flowcharts showing an example of the macroblock layer multiplexing processing according to the (first) method of the present invention described with reference to Tables 4 and 6, and 1 and 1 in FIGS. followss the flow of 1 and 2 in Figure 13 respectively.
- FIGS. 14 and 15 are flowcharts showing an example of the macro-layer multiplexing processing according to the (second) method of the present invention described with reference to Table 5 and FIG. followss the flow of 1 and 2 in Figure 15, respectively.
- FIG. 16 is a flowchart of the entire predictive decoding program for a moving image.
- the macroblock layer separation and decoding processing block enclosed by a double frame in the figure is a portion relating to the features of the present invention.
- FIGS. 17 and 18 are flowcharts showing examples of conventional macroblock layer separation and decoding processing.
- 1 and ⁇ ⁇ follow the flow of 1 and 2 in FIG. 18, respectively. .
- FIGS. 19 and 20 are flowcharts showing an example of separation and decoding processing of the macro-broker multiplexed by the first method.
- FIG. follow the flow of 1 and 2.
- FIGS. 21 and 22 are flowcharts showing an example of separation and decoding processing of the macroblock layer multiplexed by the above-mentioned second method, and 1 and ⁇ in FIG. 21 correspond to 1 in FIG. And follow the flow of 1.
- the content of the decoding process is divided according to the data structure determined at the time of encoding.
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Also Published As
Publication number | Publication date |
---|---|
AU5577398A (en) | 1998-09-08 |
CA2279923A1 (en) | 1998-08-20 |
CN1208971C (zh) | 2005-06-29 |
KR20000071047A (ko) | 2000-11-25 |
DE69840082D1 (de) | 2008-11-13 |
KR100322515B1 (ko) | 2002-02-07 |
EP0961499A4 (en) | 2000-08-09 |
EP0961499A1 (en) | 1999-12-01 |
CA2279923C (en) | 2004-04-06 |
CN100466747C (zh) | 2009-03-04 |
CN1728830A (zh) | 2006-02-01 |
EP1809044B1 (en) | 2008-10-01 |
US6785331B1 (en) | 2004-08-31 |
CN1252203A (zh) | 2000-05-03 |
EP0961499B1 (en) | 2007-10-31 |
DE69838639T2 (de) | 2008-08-28 |
EP1809044A2 (en) | 2007-07-18 |
DE69838639D1 (de) | 2007-12-13 |
EP1809044A3 (en) | 2007-08-01 |
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