CN101009842A - Method and device for value insertion in the hierarchical video compression - Google Patents

Method and device for value insertion in the hierarchical video compression Download PDF

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CN101009842A
CN101009842A CN 200710000228 CN200710000228A CN101009842A CN 101009842 A CN101009842 A CN 101009842A CN 200710000228 CN200710000228 CN 200710000228 CN 200710000228 A CN200710000228 A CN 200710000228A CN 101009842 A CN101009842 A CN 101009842A
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interpolation
tap
phase place
tap coefficient
picture element
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CN101009842B (en
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虞露
张赐勋
孙琦超
熊联欢
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Huawei Technologies Co Ltd
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Huawei Technologies Co Ltd
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Abstract

The disclosed interpolation method for gradable video compression applies interpolation filters with independent precision for brightness and chroma components, as well as the tap coefficients of two symmetrical or asymmetrical filters. This invention improves compression efficiency, and reduces hardware complexity.

Description

The method and apparatus of interpolation in the scalable video compression
Technical field
The present invention relates to electric numerical data processing technology field, the method and apparatus of interpolation in particularly a kind of scalable video compression.
Background technology
At present, in the video communication technology field, vision signal is being used as digital video signal more and more widely and is transmitting.In the digital signal transmission process,,, need to use various ways that vision signal waiting for transmission is compressed processing usually to improve efficiency of transmission in order to guarantee low data rate.Therefore, industry has defined multiple differently video compression standard, is used for as the working specification at video signal compression.
In known video system,, can use multiple differently Video Coding Scheme or its modification that vision signal is carried out compressed encoding usually based on different video compression standards.Therefore, for after the compression video flowing send to have difference in functionality, a plurality of decoders in performance and requirement ground, need to use encoded video stream scalably sometimes.Utilize the gradability of video coding can make decoder can only adopt a video flowing ground part, and all images of decoding in view of the above.Need to prove decoded image ground quality scale depends on how many video flowings decoder uses, and the constituted mode of the video flowing of this scalable compressed.
In the current video compression standard, normally pass through the gradability of hierarchy implementation space, signal to noise ratio and time.Two or more video flowings independently that this encoded video information is divided into corresponding different layers.In this scalability structure, just as not using the circulation of hybrid predicting coding to come in the hierarchical coding scheme to base layer encoder.Can produce data flow (being video flowing) like this, when this data flow of decoding, this data flow can produce low-quality all images.Enhancement layer links with basic unit, and comprises the data with respect to the residual signal of corresponding base layer image.This enhancement layer produces and strengthens data flow, and when strengthening the merging of data flow and base layer information, this enhancing data flow can provide better video quality level.
In scalable video compression, in the time of inter-layer prediction, need after the base layer signal interpolation of each enhancement layer correspondence as the prediction signal of this enhancement layer, and then enhancement layer compressed.The interpolation of this base layer signal is the significant process that influences the scalable video compression performance.Original interpolation process adopts the same interpolation filter of precision for luminance component and chromatic component, causes computation complexity higher.And adopt of interpolation filter be symmetrical design more, thereby influenced the further lifting of compression performance.
Summary of the invention
Embodiments of the invention provide the method and apparatus of interpolation in a kind of scalable video compression, can predict between different layers and improve precision of prediction when carrying out interpolation, and reduce complexity.
Embodiments of the invention provide the method for interpolation in a kind of scalable video compression, this method is used for the inter-layer prediction of scalable video compression, in described forecasting process, comprises luminance component and chromatic component filtering interpolation are handled, and the processing of described filtering interpolation specifically comprises:
Adopt the mutual interpolation filter of independently determining precision to carry out filtering interpolation respectively to luminance component and chromatic component and handle, and describedly luminance component and chromatic component are carried out filtering interpolation handle the tap coefficient of the interpolation filter that adopts respectively and determine for independent mutually.
Embodiments of the invention provide the device of interpolation in a kind of scalable video compression, comprising:
Adopt the brightness interpolating filter of first predetermined accuracy and the first predetermined tap coefficient, be used for that luminance component is carried out filtering interpolation and handle;
Adopt the chroma interpolation filter of second predetermined accuracy and the second predetermined tap coefficient, be used for that each chromatic component is carried out filtering interpolation and handle;
Wherein, described first predetermined accuracy and second predetermined accuracy are separate, and the described first predetermined tap coefficient and the second predetermined tap coefficient are separate.
Embodiment provided by the invention compares the beneficial effect that has and comprises with background technology: owing to be to handle respectively according to the different qualities of brightness and colourity among the embodiment provided by the invention, it is the interpolation filter that luminance component and chromatic component adopt mutual independent precision, and, the tap coefficient of the interpolation filter of luminance component and chromatic component is also independent mutually, therefore, the realization of embodiment provided by the invention can effectively reduce the complexity of encoding compression process, can also improve code efficiency simultaneously.In addition, embodiment provided by the invention is not limited to video coding or image code domain, can also extend in the application of other signal processing.
Description of drawings
Fig. 1 is the schematic diagram of 1/16 pixel phase place of the whole pixel represented of capitalization and figure denote;
Fig. 2 is the schematic diagram of 1/8 pixel phase place of the whole pixel represented of capitalization and figure denote;
Fig. 3 is the schematic diagram of 1/4 pixel phase place of the whole pixel represented of capitalization and figure denote;
Fig. 4 is the schematic diagram of 1/2 pixel phase place of the whole pixel represented of capitalization and figure denote;
Fig. 5 is the specific implementation structural representation of device provided by the invention;
Fig. 6 is the device example structure schematic diagram of interpolation in the scalable video compression.
Embodiment
For ease of the understanding of the present invention, the specific embodiment under the various application scenarioss provided by the invention is elaborated below in conjunction with accompanying drawing.
(1) application scenarios one
In this application scenarios, for up-to-date graduated encoding technology, when adopting the general spatial demixing technology, the macro block of enhancement layer adopts when basic unit's pattern (Intra Base) is encoded in the frame, need carry out luminance component and chromatic component interpolation earlier to the piece of basic unit's correspondence.Provide two embodiment at this application scenarios, only can not use following examples in the specific implementation, promptly can also adopt other to realize based on specific embodiments of the invention at this application scenarios but do not limit the present invention.
Embodiment 1
In this embodiment, adopt the interpolation filter of independent precision to carry out corresponding filtering interpolation processing respectively, be specifically as follows for luminance component and chromatic component:
Can adopt 6 tap interpolation filters of 1/2 pixel accuracy for luminance component, its form is:
{ Co 1, Co 2, Co 3, Co 4, Co 5, Co 6}/[Co 1+ Co 2+ Co 3+ Co 4+ Co 5+ Co 6], Co iBe filter tap coefficients, wherein i=1...6;
Concrete tap coefficient can be [1 ,-5,20,20 ,-5,1]/32, wherein, and interpolation filter tap coefficient Co iThe span that value also comprises is: round (Co i* 2 j) ± 1, i=1...6 wherein, j is an arbitrary integer, promptly described tap coefficient can also be adjusted into [1 * 2 j± 1 ,-5 * 2 j± 1,20 * 2 j± 1,20 * 2 j± 1 ,-5 * 2 j± 1,1 * 2 j± 1]/{ (1 * 2 j± 1)+(5 * 2 j± 1)+(20 * 2 j± 1)+(20 * 2 j± 1)+(5 * 2 j± 1)+(1 * 2 j± 1) }, and j be arbitrary integer;
Can adopt 2 tap interpolation filters of 1/2 pixel accuracy for chromatic component, its form is:
{ Do 1, Do 2}/[Do 1+ Do 2], Do iBe filter tap coefficients, wherein i=1...2;
Concrete tap coefficient can be [16,16]/32, wherein, and interpolation filter tap coefficient Do iThe span that value also comprises is: round (Do i* 2 j) ± 1, i=1...2 wherein, j is an arbitrary integer, promptly described tap coefficient can also be adjusted into [16 * 2 j± 1,16 * 2 j± 1]/{ (16 * 2 j± 1)+(16 * 2 j± 1) }, and j be arbitrary integer.
Embodiment 2
In this embodiment, adopt 4 tap interpolation filters of 1/2 pixel accuracy for luminance component, its form is: { Eo 1, Eo 2, Eo 3, Eo 4}/[Eo 1+ Eo 2+ Eo 3+ Eo 4], Eo iBe filter tap coefficients, i=1...4 wherein, concrete tap coefficient is [5,21,21 ,-5]/32, and interpolation filter tap coefficient Eo iValue also comprises round (Eo i* 2 j) ± 1, i=1...4 wherein, j is an arbitrary integer; For chromatic component then can adopt with embodiment 1 in identical interpolation filter, promptly adopt 2 tap interpolation filters of described 1/2 pixel accuracy.
Wherein, in the foregoing description 1 and embodiment 2, described general spatial demixing technology is meant that it is 2 or 2 multiple that the image size of the image size of basic unit and enhancement layer must satisfy.
(2) application scenarios two
In this application scenarios, for up-to-date graduated encoding technology, when adopting extending space demixing technology (ESS), the macro block of enhancement layer adopts when basic unit's pattern (Intra Base) is encoded in the frame, need carry out luminance component and chromatic component interpolation earlier to the piece of basic unit's correspondence.At this application scenarios, embodiments of the invention provide 8 embodiment, only can not use following examples in the specific implementation but do not limit the present invention, promptly can also adopt other to realize based on specific embodiments of the invention at this application scenarios.
Under the situation that adopts extending space demixing technology ESS, can adopt at luminance component interpolation filter comprise: 6 tap interpolation filters of 1/16 pixel accuracy, 4 tap interpolation filters of 1/16 pixel accuracy, 6 tap interpolation filters of 1/8 pixel accuracy, and in the 4 tap interpolation filters of 1/8 pixel accuracy any; The interpolation filter at chromatic component that can adopt comprises: 2 tap interpolation filters of 1/16 pixel accuracy, 1/8 pixel accuracy, 2 tap interpolation filters, 2 tap interpolation filters of 1/4 pixel accuracy, and in the 2 tap interpolation filters of 1/2 pixel accuracy any.And, employing at luminance component interpolation filter precision need less than at chromatic component the precision of interpolation filter.Be specially and can adopt following any one combination:
(1) luminance component adopts 6 tap interpolation filters of 1/16 pixel accuracy, and chromatic component adopts the 2 tap interpolation filters of 1/16 pixel accuracy or 2 tap interpolation filters or the 2 tap interpolation filters of 1/4 pixel accuracy or the 2 tap interpolation filters of 1/2 pixel accuracy of 1/8 pixel accuracy;
(2) luminance component adopts 4 tap interpolation filters of 1/16 pixel accuracy, and chromatic component adopts the 2 tap interpolation filters of 1/16 pixel accuracy or 2 tap interpolation filters or the 2 tap interpolation filters of 1/4 pixel accuracy or the 2 tap interpolation filters of 1/2 pixel accuracy of 1/8 pixel accuracy;
(3) luminance component adopts 6 tap interpolation filters of 1/8 pixel accuracy, and chromatic component adopts 2 tap interpolation filters or the 2 tap interpolation filters of 1/4 pixel accuracy or the 2 tap interpolation filters of 1/2 pixel accuracy of 1/8 pixel accuracy;
(4) luminance component adopts 4 tap interpolation filters of 1/8 pixel accuracy, and chromatic component adopts 2 tap interpolation filters or the 2 tap interpolation filters of 1/4 pixel accuracy or the 2 tap interpolation filters of 1/2 pixel accuracy of 1/8 pixel accuracy.
The specific implementation form of the various interpolation filters that will can adopt the front is described below.
(1) 6 tap interpolation filter forms of described 1/16 pixel accuracy are:
{ Go 1, Go 2, Go 3, Go 4, Go 5, Go 6}/[Go 1+ Go 2+ Go 3+ Go 4+ Go 5+ Go 6], wherein, Go iBe filter tap coefficients, i=1...6 wherein, concrete tap coefficient determine that according to phase place to phase place 15, corresponding tap coefficient is followed successively by: [0,0,32,0,0 by phase place 0,0]/32, [0 ,-2,32,2,0,0]/32, [1 ,-3,31,4 ,-1,0]/32, [1 ,-4,30,7 ,-2,0]/32, [1 ,-4,28,9 ,-2,0]/32, [1 ,-5,27,11 ,-3,1]/32, [1 ,-5,25,14,-3,0]/32, [1 ,-5,22,17 ,-4,1]/32, [1 ,-5,20,20 ,-5,1]/32, [1 ,-4,17,22 ,-5,1]/32, [0 ,-3,14,25,-5,1]/32, [1 ,-3,11,27 ,-5,1]/32, [0 ,-2,9,28 ,-4,1]/32, [0 ,-2,7,30 ,-4,1]/32, [0 ,-1,4,31,-3,1]/32, [0,0,2,32 ,-2,0]/32; And interpolation filter tap coefficient Goi value also comprises round (Go i* 2 j) ± 1, i=1...6 wherein, j is an arbitrary integer;
(2) form of 6 tap interpolation filters of described 1/8 pixel accuracy is:
{ Io 1, Io 2, Io 3, Io 4, Io 5, Io 6}/[Io 1+ Io 2+ Io 3+ Io 4+ Io 5+ Io 6], Io iBe filter tap coefficients, i=1...6 wherein, concrete tap coefficient determine that according to phase place to phase place 8, corresponding tap coefficient is followed successively by: [0,0,32,0,0 by phase place 0,0]/32, [1 ,-3,31,4 ,-1,0]/32, [1 ,-4,28,9 ,-2,0]/32, [1 ,-5,25,14 ,-3,0]/32, [1 ,-5,20,20 ,-5,1]/32, [0 ,-3,14,25 ,-5,1]/32, [0 ,-2,9,28,-4,1]/32, [0 ,-1,4,31 ,-3,1]/32; And, interpolation filter tap coefficient Io iValue also comprises round (Io i* 2 j) ± 1, i=1...6 wherein, j is an arbitrary integer;
(3) form of 4 tap interpolation filters of described 1/16 pixel accuracy is:
{ Ko 1, Ko 2, Ko 3, Ko 4}/[Ko 1+ Ko 2+ Ko 3+ Ko 4], Ko iBe filter tap coefficients, i=1...4 wherein, concrete tap coefficient determine that according to phase place to phase place 16, corresponding tap coefficient is followed successively by: [0,32,0 by phase place 0,0]/32, [2,32,2,0]/32, [3,32,4 ,-1]/32, [4,31,6 ,-1]/32, [5,29,9 ,-2]/32, [5,28,12 ,-3]/32, [5,26,15 ,-4]/32, [5,23,18,-4]/32, [5,21,21 ,-5]/32, [4,18,23 ,-5]/32,, [4,15,26 ,-5]/32, [3,12,28 ,-5]/32, [2,9,29,-5]/32, [1,6,31 ,-4]/32, [1,4,31 ,-3]/32, [0,2,32 ,-2]/32; And, interpolation filter tap coefficient Ko iValue also comprises round (Ko i* 2 j) ± 1, i=1...4 wherein, j is an arbitrary integer;
(4) form of 4 tap interpolation filters of described 1/8 pixel accuracy is:
{ Oo 1, Oo 2, Oo 3, Oo 4}/[Oo 1+ Oo 2+ Oo 3+ Oo 4], Oo iBe filter tap coefficients, i=1...4 wherein, concrete tap coefficient determine that according to phase place to phase place 8, corresponding tap coefficient is followed successively by: [0,32,0 by phase place 0,0]/32, [3,32,4 ,-1]/32, [5,29,9 ,-2]/32, [5,26,15,-4]/32, [5,21,21 ,-5]/32, [4,15,26 ,-5]/32, [2,9,29 ,-5]/32, [1,4,31 ,-3]/32; And, interpolation filter tap coefficient Oo iValue also comprises round (Oo i* 2 j) ± 1, i=1...4 wherein, j is an arbitrary integer;
The form of 2 tap interpolation filters of (5) 1/16 pixel accuracies is: { Fo 1, Fo 2}/[Fo 1+ Fo 2] ,-Fo iBe filter tap coefficients, i=1...2 wherein, concrete tap coefficient determine that according to phase place to phase place 16, corresponding tap coefficient is followed successively by: [32,0]/32, [30 by phase place 0,2]/32, [28,4]/32, [27,5]/32, [25,7]/32,, [22,10]/32, [20,12]/32, [18,14]/32, [16,16]/32, [14,18]/32, [12,20]/32, [10,22]/32,, [7,25]/32, [5,27]/32, [4,28]/32, [2,30]/32; And, interpolation filter tap coefficient Fo iValue also comprises round (Fo i* 2 j) ± 1, i=1...2 wherein, j is an arbitrary integer;
(6) 1/8 pixel accuracies the form of 2 tap interpolation filters be: { Ho 1, Ho 2}/[Ho 1+ Ho 2] ,-Ho iBe filter tap coefficients, i=1...2 wherein, concrete tap coefficient determine that according to phase place to phase place 8, corresponding tap coefficient is followed successively by: [32,0]/32, [28 by phase place 0,4]/32, [25,7]/32, [20,12]/32, [16,16]/32,, [12,20]/32, [7,25]/32, [4,28]/32; And, interpolation filter tap coefficient Ho iValue also comprises round (Ho i* 2 j) ± 1, i=1...2 wherein, j is an arbitrary integer;
(7) 1/4 pixel accuracies the form of 2 tap interpolation filters be:
{ Mo 1, Mo 2}/[Mo 1+ Mo 2], Mo iBe filter tap coefficients, i=1...2 wherein, concrete tap coefficient determine that according to phase place to phase place 4, corresponding tap coefficient is followed successively by: [32,0]/32, [25,7]/32, [16,16]/32, [7,25]/32 by phase place 0; And, tap coefficient Mo iValue also comprises round (Mo i* 2 j) ± 1, i=1...2 wherein, j is an arbitrary integer;
The form of 2 tap interpolation filters of (8) 1/2 pixel accuracies is:
{ No 1, No 2}/[No 1+ No 2], No iBe filter tap coefficients, i=1...2 wherein, concrete tap coefficient determine according to phase place, are 0 o'clock in phase place, and tap coefficient is [32,0]/32, is 1 o'clock in phase place, and tap coefficient is [16,16]/32, and interpolation filter tap coefficient No iValue also comprises round (No i* 2 j) ± 1, i=1...2 wherein, j is an arbitrary integer.
Below will be to this application scenarios two times, eight embodiment that embodiments of the invention provide describe respectively.
Embodiment 1
In this embodiment, can adopt the interpolation of 1/16 pixel accuracy for luminance component, corresponding interpolation filter adopts 6 taps, and tap coefficient is determined according to phase place.As shown in Figure 1, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [0,0,32,0,0,0]/32; In phase place is 1 o'clock, and tap coefficient is [0 ,-2,32,2,0,0]/32; In phase place is 2 o'clock, and tap coefficient is [1 ,-3,31,4 ,-1,0]/32; In phase place is 3 o'clock, and tap coefficient is [1 ,-4,30,7 ,-2,0]/32; In phase place is 4 o'clock, and tap coefficient is [1 ,-4,28,9 ,-2,0]/32; In phase place is 5 o'clock, and tap coefficient is [1 ,-5,27,11 ,-3,1]/32; In phase place is 6 o'clock, and tap coefficient is [1 ,-5,25,14 ,-3,0]/32; In phase place is 7 o'clock, and tap coefficient is [1 ,-5,22,17 ,-4,1]/32; In phase place is 8 o'clock, and tap coefficient is [1 ,-5,20,20 ,-5,1]/32; In phase place is 9 o'clock, and tap coefficient is [1 ,-4,17,22 ,-5,1]/32; In phase place is 10 o'clock, and tap coefficient is [0 ,-3,14,25 ,-5,1]/32; In phase place is 11 o'clock, and tap coefficient is [1 ,-3,11,27 ,-5,1]/32; In phase place is 12 o'clock, and tap coefficient is [0 ,-2,9,28 ,-4,1]/32; In phase place is 13 o'clock, and tap coefficient is [0 ,-2,7,30 ,-4,1]/32; In phase place is 14 o'clock, and tap coefficient is [0 ,-1,4,31 ,-3,1]/32; In phase place is 15 o'clock, and tap coefficient is [0,0,2,32 ,-2,0]/32.
Adopt the interpolation of 1/16 pixel accuracy for chromatic component, the filter of interpolation adopts 2 taps, and tap coefficient is determined according to phase place.As shown in Figure 1, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [32,0]/32; In phase place is 1 o'clock, and tap coefficient is [30,2]/32; In phase place is 2 o'clock, and tap coefficient is [28,4]/32; In phase place is 3 o'clock, and tap coefficient is [27,5]/32; In phase place is 4 o'clock, and tap coefficient is [25,7]/32; In phase place is 5 o'clock, and tap coefficient is [22,10]/32; In phase place is 6 o'clock, and tap coefficient is [20,12]/32; In phase place is 7 o'clock, and tap coefficient is [18,14]/32; In phase place is 8 o'clock, and tap coefficient is [16,16]/32; In phase place is 9 o'clock, and tap coefficient is [14,18]/32; In phase place is 10 o'clock, and tap coefficient is [12,20]/32; In phase place is 11 o'clock, and tap coefficient is [10,22]/32; In phase place is 12 o'clock, and tap coefficient is [7,25]/32; In phase place is 13 o'clock, and tap coefficient is [5,27]/32; In phase place is 14 o'clock, and tap coefficient is [4,28]/32; In phase place is 15 o'clock, and tap coefficient is [2,30]/32.
As shown in Figure 1, the processing procedure during the luminance component interpolation comprises:
(1) at first, carry out vertical interpolation, utilize nearest and inferior 2 near whole picture element interpolation under nearest and inferior near 2 whole picture elements directly over A and the A and C and the C to obtain 1/16 picture element of 16 outs of phase between whole picture element A, the C, utilize nearest and inferior 2 near whole picture element interpolation under nearest and inferior near 2 whole picture elements directly over B and the B and D and the D to obtain 1/16 picture element of 16 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize the A and the A left side recently and time near 2 whole picture elements and B and B the right recently and time 2 near whole picture element interpolation obtain whole picture element A, 1/16 picture element of 16 outs of phase between the B, remaining 1/16 picture element, it as the phase place in the middle of the accompanying drawing 14 point, utilize A, phase place between the C is 8 1/16 picture element, B, phase place between the D is 8 1/16 picture element, by between the nearest whole picture element in the nearest whole picture element in the A left side and the C left side vertically the phase place that obtains of interpolation be 8 1/16 picture element, the phase place that is obtained by vertical interpolation between time near whole picture element in time near whole picture element in the A left side and the C left side is 8 1/16 picture element, the phase place that is obtained by vertical interpolation between the nearest whole picture element in B the right and the nearest whole picture element in D the right is 8 1/16 picture element, the phase place that is obtained by vertical interpolation between time near whole picture element in time near whole picture element in B the right and D the right is that to utilize phase place be that 4 brightness interpolating filter interpolation obtains for 8 1/16 picture element.
As shown in Figure 1, the processing procedure during the chromatic component interpolation comprises:
(1) at first, carry out vertical interpolation, utilize A and C interpolation to obtain 1/16 picture element of 16 outs of phase between whole picture element A, the C, utilize B and D interpolation to obtain 1/16 picture element of 16 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize A and B interpolation to obtain 1/16 picture element of 16 outs of phase between whole picture element A, the B, remaining 1/16 picture element, it as the phase place in the middle of the accompanying drawing 14 point, utilizing phase place between A, the C is 8 1/16 picture element, and the phase place between B, the D is 8 1/16 picture element, utilize phase place is that 4 chroma interpolation filter interpolation obtains.
Employing extending space demixing technology (ESS) wherein is meant that the image size of basic unit and the image size of enhancement layer are arbitrarily.
Embodiment 2
In this embodiment, adopt the interpolation of 1/16 pixel accuracy for luminance component, the filter of interpolation adopts 6 taps, and tap coefficient is determined according to phase place.As shown in Figure 1, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [0,0,32,0,0,0]/32; In phase place is 1 o'clock, and tap coefficient is [0 ,-2,32,2,0,0]/32; In phase place is 2 o'clock, and tap coefficient is [1 ,-3,31,4 ,-1,0]/32; In phase place is 3 o'clock, and tap coefficient is [1 ,-4,30,7 ,-2,0]/32; In phase place is 4 o'clock, and tap coefficient is [1 ,-4,28,9 ,-2,0]/32; In phase place is 5 o'clock, and tap coefficient is [1 ,-5,27,11 ,-3,1]/32; In phase place is 6 o'clock, and tap coefficient is [1 ,-5,25,14 ,-3,0]/32; In phase place is 7 o'clock, and tap coefficient is [1 ,-5,22,17 ,-4,1]/32; In phase place is 8 o'clock, and tap coefficient is [1 ,-5,20,20 ,-5,1]/32; In phase place is 9 o'clock, and tap coefficient is [1 ,-4,17,22 ,-5,1]/32; In phase place is 10 o'clock, and tap coefficient is [0 ,-3,14,25 ,-5,1]/32; In phase place is 11 o'clock, and tap coefficient is [1 ,-3,11,27 ,-5,1]/32; In phase place is 12 o'clock, and tap coefficient is [0 ,-2,9,28 ,-4,1]/32; In phase place is 13 o'clock, and tap coefficient is [0 ,-2,7,30 ,-4,1]/32; In phase place is 14 o'clock, and tap coefficient is [0 ,-1,4,31 ,-3,1]/32; In phase place is 15 o'clock, and tap coefficient is [0,0,2,32 ,-2,0]/32.
Adopt the interpolation of 1/8 pixel accuracy for chromatic component, the filter of interpolation adopts 2 taps, and tap coefficient is determined according to phase place.As shown in Figure 2, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [32,0]/32; In phase place is 1 o'clock, and tap coefficient is [28,4]/32; In phase place is 2 o'clock, and tap coefficient is [25,7]/32; In phase place is 3 o'clock, and tap coefficient is [20,12]/32; In phase place is 4 o'clock, and tap coefficient is [16,16]/32; In phase place is 5 o'clock, and tap coefficient is [12,20]/32; In phase place is 6 o'clock, and tap coefficient is [7,25]/32; In phase place is 7 o'clock, and tap coefficient is [4,28]/32.
As shown in Figure 1, the processing procedure during the luminance component interpolation comprises:
(1) at first, carry out vertical interpolation, utilize nearest and inferior 2 near whole picture element interpolation under nearest and inferior near 2 whole picture elements directly over A and the A and C and the C to obtain 1/16 picture element of 16 outs of phase between whole picture element A, the C, utilize nearest and inferior 2 near whole picture element interpolation under nearest and inferior near 2 whole picture elements directly over B and the B and D and the D to obtain 1/16 picture element of 16 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize the A and the A left side recently and time near 2 whole picture elements and B and B the right recently and time 2 near whole picture element interpolation obtain whole picture element A, 1/16 picture element of 16 outs of phase between the B, remaining 1/16 picture element, it as the phase place in the middle of the accompanying drawing 14 point, utilize A, phase place between the C is 8 1/16 picture element, B, phase place between the D is 8 1/16 picture element, by between the nearest whole picture element in the nearest whole picture element in the A left side and the C left side vertically the phase place that obtains of interpolation be 8 1/16 picture element, the phase place that is obtained by vertical interpolation between time near whole picture element in time near whole picture element in the A left side and the C left side is 8 1/16 picture element, the phase place that is obtained by vertical interpolation between the nearest whole picture element in B the right and the nearest whole picture element in D the right is 8 1/16 picture element, the phase place that is obtained by vertical interpolation between time near whole picture element in time near whole picture element in B the right and D the right is that to utilize phase place be that 4 brightness interpolating filter interpolation obtains for 8 1/16 picture element.
As shown in Figure 2, the processing procedure during the chromatic component interpolation comprises:
(1) at first, carry out vertical interpolation, utilize A and C interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element A, the C, utilize B and D interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize A and B interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element A, the B, remaining 1/8 picture element, it as the phase places in the middle of the accompanying drawing 22 point, utilizing phase place between A, the C is 3 1/8 picture element, and the phase place between B, the D is 3 1/8 picture element, utilize phase place is that 2 chroma interpolation filter interpolation obtains.
Embodiment 3
In this embodiment, adopt the interpolation of 1/8 pixel accuracy for luminance component, the filter of interpolation adopts 6 taps, and tap coefficient is determined according to phase place.As shown in Figure 2, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [0,0,32,0,0,0]/32, be 1 o'clock in phase place, tap coefficient is [1 ,-3,31,4,-1,0]/32, be 2 o'clock in phase place, tap coefficient is [1 ,-4,28,9 ,-2,0]/32, be 3 o'clock in phase place, tap coefficient is [1 ,-5,25,14 ,-3,0]/32, be 4 o'clock in phase place, tap coefficient is [1,-5,20,20 ,-5,1] it is 5 o'clock/32, in phase place, tap coefficient is [0 ,-3,14,25 ,-5,1]/32, be 6 o'clock in phase place, tap coefficient is [0 ,-2,9,28 ,-4,1]/32, be 7 o'clock in phase place, tap coefficient is [0,-1,4,31 ,-3,1]/32.
Adopt the interpolation of 1/8 pixel accuracy for chromatic component, the filter of interpolation adopts 2 taps, and tap coefficient is determined according to phase place.As shown in Figure 2, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [32,0]/32; In phase place is 1 o'clock, and tap coefficient is [28,4]/32; In phase place is 2 o'clock, and tap coefficient is [25,7]/32; In phase place is 3 o'clock, and tap coefficient is [20,12]/32; In phase place is 4 o'clock, and tap coefficient is [16,16]/32; In phase place is 5 o'clock, and tap coefficient is [12,20]/32; In phase place is 6 o'clock, and tap coefficient is [7,25]/32; In phase place is 7 o'clock, and tap coefficient is [4,28]/32.
As shown in Figure 2, the processing procedure during the luminance component interpolation comprises:
(1) at first, carry out vertical interpolation, utilize nearest and inferior 2 near whole picture element interpolation under nearest and inferior near 2 whole picture elements directly over A and the A and C and the C to obtain 1/8 picture element of 8 outs of phase between whole picture element A, the C, utilize nearest and inferior 2 near whole picture element interpolation under nearest and inferior near 2 whole picture elements directly over B and the B and D and the D to obtain 1/8 picture element of 8 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize the A and the A left side recently and time near 2 whole picture elements and B and B the right recently and time 2 near whole picture element interpolation obtain whole picture element A, 1/8 picture element of 8 outs of phase between the B, remaining 1/8 picture element, it as the phase places in the middle of the accompanying drawing 22 point, utilize A, phase place between the C is 3 1/8 picture element, B, phase place between the D is 3 1/8 picture element, by between the nearest whole picture element in the nearest whole picture element in the A left side and the C left side vertically the phase place that obtains of interpolation be 3 1/8 picture element, the phase place that is obtained by vertical interpolation between time near whole picture element in time near whole picture element in the A left side and the C left side is 3 1/8 picture element, the phase place that is obtained by vertical interpolation between the nearest whole picture element in B the right and the nearest whole picture element in D the right is 3 1/8 picture element, the phase place that is obtained by vertical interpolation between time near whole picture element in time near whole picture element in B the right and D the right is that to utilize phase place be that 2 brightness interpolating filter interpolation obtains for 3 1/8 picture element.
As shown in Figure 2, the processing procedure during the chromatic component interpolation comprises:
(1) at first, carry out vertical interpolation, utilize A and C interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element A, the C, utilize B and D interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize A and B interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element A, the B, remaining 1/8 picture element, it as the phase places in the middle of the accompanying drawing 22 point, utilizing phase place between A, the C is 3 1/8 picture element, and the phase place between B, the D is 3 1/8 picture element, utilize phase place is that 2 chroma interpolation filter interpolation obtains.
Embodiment 4
In this embodiment, adopt 4 tap interpolation filters of 1/16 pixel accuracy for luminance component, tap coefficient is determined according to phase place.As shown in Figure 1, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [0,32,0,0]/32, be 1 o'clock in phase place, tap coefficient is [2,32,2,0]/32, be 2 o'clock in phase place, tap coefficient is [3,32,4 ,-1] it is 3 o'clock/32, in phase place, tap coefficient is [4,31,6 ,-1]/32, in phase place is 4 o'clock, and tap coefficient is [5,29,9,-2]/32, be 5 o'clock in phase place, tap coefficient is [5,28,12 ,-3]/32, be 6 o'clock in phase place, tap coefficient is [5,26,15 ,-4] it is 7 o'clock/32, in phase place, tap coefficient is [5,23,18 ,-4]/32, in phase place is 8 o'clock, and tap coefficient is [5,21,21,-5]/32, be 9 o'clock in phase place, tap coefficient is [4,18,23 ,-5]/32, be 10 o'clock in phase place, tap coefficient is [4,15,26 ,-5] it is 11 o'clock/32, in phase place, tap coefficient is [3,12,28 ,-5]/32, in phase place is 12 o'clock, and tap coefficient is [2,9,29,-5]/32, be 13 o'clock in phase place, tap coefficient is [1,6,31 ,-4]/32, be 14 o'clock in phase place, tap coefficient is [1,4,31 ,-3] it is 15 o'clock/32, in phase place, tap coefficient is [0,2,32 ,-2]/32;
Adopt 2 tap interpolation filters of 1/16 pixel accuracy for chromatic component, the filter of interpolation adopts 2 taps, and tap coefficient is determined according to phase place.As shown in Figure 1, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [32,0]/32, is 1 o'clock in phase place, tap coefficient is [30,2]/32, is 2 o'clock in phase place, and tap coefficient is [28,4]/32, be 3 o'clock in phase place, tap coefficient is [27,5]/32, in phase place is 4 o'clock, and tap coefficient is [25,7]/32, is 5 o'clock in phase place, tap coefficient is [22,10]/32, is 6 o'clock in phase place, and tap coefficient is [20,12]/32, be 7 o'clock in phase place, tap coefficient is [18,14]/32, in phase place is 8 o'clock, and tap coefficient is [16,16]/32, in phase place is 9 o'clock, and tap coefficient is [14,18]/32, in phase place is 10 o'clock, and tap coefficient is [12,20]/32, in phase place is 11 o'clock, and tap coefficient is [10,22]/32, in phase place is 12 o'clock, and tap coefficient is [7,25]/32, in phase place is 13 o'clock, and tap coefficient is [5,27]/32, in phase place is 14 o'clock, and tap coefficient is [4,28]/32, in phase place is 15 o'clock, and tap coefficient is [2,30]/32;
As shown in Figure 1, the processing procedure during the luminance component interpolation comprises:
(1) at first, carry out vertical interpolation, utilize nearest whole picture element interpolation under whole picture element nearest directly over A and the A and C and the C to obtain 1/16 picture element of 16 outs of phase between whole picture element A, the C, utilize nearest whole picture element interpolation under whole picture element nearest directly over B and the B and D and the D to obtain 1/16 picture element of 16 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize the nearest whole picture element interpolation in nearest whole picture element in the A and the A left side and B and B the right to obtain whole picture element A, 1/16 picture element of 16 outs of phase between the B, remaining 1/16 picture element, it as the phase place in the middle of the accompanying drawing 14 point, utilize A, phase place between the C is 8 1/16 picture element, B, phase place between the D is 8 1/16 picture element, by between the nearest whole picture element in the nearest whole picture element in the A left side and the C left side vertically the phase place that obtains of interpolation be 8 1/16 picture element, the phase place that is obtained by vertical interpolation between the nearest whole picture element in B the right and the nearest whole picture element in D the right is that to utilize phase place be that 4 brightness interpolating filter interpolation obtains for 8 1/16 picture element.As shown in Figure 1, carry out vertical interpolation during the chromatic component interpolation earlier, utilize A and C interpolation to obtain 1/16 picture element of 16 outs of phase between whole picture element A, the C, utilize B and D interpolation to obtain 1/16 picture element of 16 outs of phase between whole picture element B, the D; Carry out lateral interpolation then, utilize A and B interpolation to obtain 1/16 picture element of 16 outs of phase between whole picture element A, the B, remaining 1/16 picture element, it as the phase place in the middle of the accompanying drawing 14 point, utilizing phase place between A, the C is 8 1/16 picture element, and the phase place between B, the D is 8 1/16 picture element, utilize phase place is that 4 chroma interpolation filter interpolation obtains.
Embodiment 5
In this embodiment, adopt 4 tap interpolation filters of 1/16 pixel accuracy for luminance component, tap coefficient is determined according to phase place.As shown in Figure 1, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [0,32,0,0]/32, be 1 o'clock in phase place, tap coefficient is [2,32,2,0]/32, be 2 o'clock in phase place, tap coefficient is [3,32,4 ,-1] it is 3 o'clock/32, in phase place, tap coefficient is [4,31,6 ,-1]/32, in phase place is 4 o'clock, and tap coefficient is [5,29,9,-2]/32, be 5 o'clock in phase place, tap coefficient is [5,28,12 ,-3]/32, be 6 o'clock in phase place, tap coefficient is [5,26,15 ,-4] it is 7 o'clock/32, in phase place, tap coefficient is [5,23,18 ,-4]/32, in phase place is 8 o'clock, and tap coefficient is [5,21,21,-5]/32, be 9 o'clock in phase place, tap coefficient is [4,18,23 ,-5]/32, be 10 o'clock in phase place, tap coefficient is [4,15,26 ,-5] it is 11 o'clock/32, in phase place, tap coefficient is [3,12,28 ,-5]/32, in phase place is 12 o'clock, and tap coefficient is [2,9,29,-5]/32, be 13 o'clock in phase place, tap coefficient is [1,6,31 ,-4]/32, be 14 o'clock in phase place, tap coefficient is [1,4,31 ,-3] it is 15 o'clock/32, in phase place, tap coefficient is [0,2,32 ,-2]/32;
Adopt the interpolation of 1/8 pixel accuracy for chromatic component, the filter of interpolation adopts 2 taps, and tap coefficient is determined according to phase place.As shown in Figure 2, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [32,0]/32, is 1 o'clock in phase place, tap coefficient is [28,4]/32, is 2 o'clock in phase place, and tap coefficient is [25,7]/32, be 3 o'clock in phase place, tap coefficient is [20,12]/32, in phase place is 4 o'clock, and tap coefficient is [16,16]/32, is 5 o'clock in phase place, tap coefficient is [12,20]/32, is 6 o'clock in phase place, and tap coefficient is [7,25]/32, be 7 o'clock in phase place, tap coefficient is [4,28]/32.
As shown in Figure 1, the processing procedure during the luminance component interpolation comprises:
(1) at first, carry out vertical interpolation, utilize nearest whole picture element interpolation under whole picture element nearest directly over A and the A and C and the C to obtain 1/16 picture element of 16 outs of phase between whole picture element A, the C, utilize nearest whole picture element interpolation under whole picture element nearest directly over B and the B and D and the D to obtain 1/16 picture element of 16 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize the nearest whole picture element interpolation in nearest whole picture element in the A and the A left side and B and B the right to obtain whole picture element A, 1/16 picture element of 16 outs of phase between the B, remaining 1/16 picture element, it as the phase place in the middle of the accompanying drawing 14 point, utilize A, phase place between the C is 8 1/16 picture element, B, phase place between the D is 8 1/16 picture element, by between the nearest whole picture element in the nearest whole picture element in the A left side and the C left side vertically the phase place that obtains of interpolation be 8 1/16 picture element, the phase place that is obtained by vertical interpolation between the nearest whole picture element in B the right and the nearest whole picture element in D the right is that to utilize phase place be that 4 brightness interpolating filter interpolation obtains for 8 1/16 picture element.As shown in Figure 2, carry out vertical interpolation during the chromatic component interpolation earlier, utilize A and C interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element A, the C, utilize B and D interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element B, the D; Carry out lateral interpolation then, utilize A and B interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element A, the B, remaining 1/8 picture element, it as the phase places in the middle of the accompanying drawing 22 point, utilizing phase place between A, the C is 3 1/8 picture element, and the phase place between B, the D is 3 1/8 picture element, utilize phase place is that 2 chroma interpolation filter interpolation obtains.
Embodiment 6
In this embodiment, adopt 4 tap interpolation filters of 1/8 pixel accuracy for luminance component, tap coefficient is determined according to phase place.As shown in Figure 2, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [0,32,0,0]/32, be 1 o'clock in phase place, tap coefficient is [3,32,4 ,-1]/32, be 2 o'clock in phase place, tap coefficient is [5,29,9 ,-2] it is 3 o'clock/32, in phase place, tap coefficient is [5,26,15 ,-4]/32, in phase place is 4 o'clock, and tap coefficient is [5,21,21,-5]/32, be 5 o'clock in phase place, tap coefficient is [4,15,26 ,-5]/32, be 6 o'clock in phase place, tap coefficient is [2,9,29 ,-5] it is 7 o'clock/32, in phase place, tap coefficient is [1,4,31 ,-3]/32;
Adopt the interpolation of 1/8 pixel accuracy for chromatic component, the filter of interpolation adopts 2 taps, and tap coefficient is determined according to phase place.As shown in Figure 2, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [32,0]/32, is 1 o'clock in phase place, tap coefficient is [28,4]/32, is 2 o'clock in phase place, and tap coefficient is [25,7]/32, be 3 o'clock in phase place, tap coefficient is [20,12]/32, in phase place is 4 o'clock, and tap coefficient is [16,16]/32, is 5 o'clock in phase place, tap coefficient is [12,20]/32, is 6 o'clock in phase place, and tap coefficient is [7,25]/32, be 7 o'clock in phase place, tap coefficient is [4,28]/32;
As shown in Figure 2, the processing procedure during the luminance component interpolation comprises:
(1) at first carries out vertical interpolation, utilize nearest whole picture element interpolation under whole picture element nearest directly over A and the A and C and the C to obtain 1/8 picture element of 8 outs of phase between whole picture element A, the C, utilize nearest whole picture element interpolation under whole picture element nearest directly over B and the B and D and the D to obtain 1/8 picture element of 8 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize the nearest whole picture element interpolation in nearest whole picture element in the A and the A left side and B and B the right to obtain whole picture element A, 1/8 picture element of 8 outs of phase between the B, remaining 1/8 picture element, it as the phase places in the middle of the accompanying drawing 22 point, utilize A, phase place between the C is 3 1/8 picture element, B, phase place between the D is 3 1/8 picture element, by between the nearest whole picture element in the nearest whole picture element in the A left side and the C left side vertically the phase place that obtains of interpolation be 3 1/8 picture element, the phase place that is obtained by vertical interpolation between the nearest whole picture element in B the right and the nearest whole picture element in D the right is that to utilize phase place be that 2 brightness interpolating filter interpolation obtains for 3 1/8 picture element.As shown in Figure 2, carry out vertical interpolation during the chromatic component interpolation earlier, utilize A and C interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element A, the C, utilize B and D interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element B, the D; Carry out lateral interpolation then, utilize A and B interpolation to obtain 1/8 picture element of 8 outs of phase between whole picture element A, the B, remaining 1/8 picture element, it as the phase places in the middle of the accompanying drawing 22 point, utilizing phase place between A, the C is 3 1/8 picture element, and the phase place between B, the D is 3 1/8 picture element, utilize phase place is that 2 chroma interpolation filter interpolation obtains.
Embodiment 7
In this embodiment, adopt the interpolation of 1/16 pixel accuracy for luminance component, the filter of interpolation adopts 6 taps, and tap coefficient is determined according to phase place.As shown in Figure 1, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [0,0,32,0,0,0]/32; In phase place is 1 o'clock, and tap coefficient is [0 ,-2,32,2,0,0]/32; In phase place is 2 o'clock, and tap coefficient is [1 ,-3,31,4 ,-1,0]/32; In phase place is 3 o'clock, and tap coefficient is [1 ,-4,30,7 ,-2,0]/32; In phase place is 4 o'clock, and tap coefficient is [1 ,-4,28,9 ,-2,0]/32; In phase place is 5 o'clock, and tap coefficient is [1 ,-5,27,11 ,-3,1]/32; In phase place is 6 o'clock, and tap coefficient is [1 ,-5,25,14 ,-3,0]/32; In phase place is 7 o'clock, and tap coefficient is [1 ,-5,22,17 ,-4,1]/32; In phase place is 8 o'clock, and tap coefficient is [1 ,-5,20,20 ,-5,1]/32; In phase place is 9 o'clock, and tap coefficient is [1 ,-4,17,22 ,-5,1]/32; In phase place is 10 o'clock, and tap coefficient is [0 ,-3,14,25 ,-5,1]/32; In phase place is 11 o'clock, and tap coefficient is [1 ,-3,11,27 ,-5,1]/32; In phase place is 12 o'clock, and tap coefficient is [0 ,-2,9,28 ,-4,1]/32; In phase place is 13 o'clock, and tap coefficient is [0 ,-2,7,30 ,-4,1]/32; In phase place is 14 o'clock, and tap coefficient is [0 ,-1,4,31 ,-3,1]/32; In phase place is 15 o'clock, and tap coefficient is [0,0,2,32 ,-2,0]/32.
Adopt the interpolation of 1/4 pixel accuracy for chromatic component, the filter of interpolation adopts 2 taps, and tap coefficient is determined according to phase place.As shown in Figure 3, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [32,0]/32, is 1 o'clock in phase place, and tap coefficient is [25,7]/32, is 2 o'clock in phase place, and tap coefficient is [16,16]/32, is 3 o'clock in phase place, and tap coefficient is [7,25]/32.
As shown in Figure 1, the processing procedure during the luminance component interpolation comprises:
(1) carries out vertical interpolation earlier, utilize nearest and inferior 2 near whole picture element interpolation under nearest and inferior near 2 whole picture elements directly over A and the A and C and the C to obtain 1/16 picture element of 16 outs of phase between whole picture element A, the C, utilize nearest and inferior 2 near whole picture element interpolation under nearest and inferior near 2 whole picture elements directly over B and the B and D and the D to obtain 1/16 picture element of 16 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize the A and the A left side recently and time near 2 whole picture elements and B and B the right recently and time 2 near whole picture element interpolation obtain whole picture element A, 1/16 picture element of 16 outs of phase between the B, remaining 1/16 picture element, it as the phase place in the middle of the accompanying drawing 14 point, utilize A, phase place between the C is 8 1/16 picture element, B, phase place between the D is 8 1/16 picture element, by between the nearest whole picture element in the nearest whole picture element in the A left side and the C left side vertically the phase place that obtains of interpolation be 8 1/16 picture element, the phase place that is obtained by vertical interpolation between time near whole picture element in time near whole picture element in the A left side and the C left side is 8 1/16 picture element, the phase place that is obtained by vertical interpolation between the nearest whole picture element in B the right and the nearest whole picture element in D the right is 8 1/16 picture element, the phase place that is obtained by vertical interpolation between time near whole picture element in time near whole picture element in B the right and D the right is that to utilize phase place be that 4 brightness interpolating filter interpolation obtains for 8 1/16 picture element.
As shown in Figure 3, the processing procedure during the chromatic component interpolation comprises:
(1) at first carries out vertical interpolation, utilize A and C interpolation to obtain 1/4 picture element of 4 outs of phase between whole picture element A, the C, utilize B and D interpolation to obtain 1/4 picture element of 4 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize A and B interpolation to obtain 1/4 picture element of 4 outs of phase between whole picture element A, the B, remaining 1/4 picture element, it as the phase places in the middle of the accompanying drawing 22 point, utilizing phase place between A, the C is 3 1/4 picture element, and the phase place between B, the D is 3 1/4 picture element, utilize phase place is that 2 chroma interpolation filter interpolation obtains.
Embodiment 8
In this embodiment, adopt the interpolation of 1/16 pixel accuracy for luminance component, the filter of interpolation adopts 6 taps, and tap coefficient is determined according to phase place.As shown in Figure 1, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [0,0,32,0,0,0]/32; In phase place is 1 o'clock, and tap coefficient is [0 ,-2,32,2,0,0]/32; In phase place is 2 o'clock, and tap coefficient is [1 ,-3,31,4 ,-1,0]/32; In phase place is 3 o'clock, and tap coefficient is [1 ,-4,30,7 ,-2,0]/32; In phase place is 4 o'clock, and tap coefficient is [1 ,-4,28,9 ,-2,0]/32; In phase place is 5 o'clock, and tap coefficient is [1 ,-5,27,11 ,-3,1]/32; In phase place is 6 o'clock, and tap coefficient is [1 ,-5,25,14 ,-3,0]/32; In phase place is 7 o'clock, and tap coefficient is [1 ,-5,22,17 ,-4,1]/32; In phase place is 8 o'clock, and tap coefficient is [1 ,-5,20,20 ,-5,1]/32; In phase place is 9 o'clock, and tap coefficient is [1 ,-4,17,22 ,-5,1]/32; In phase place is 10 o'clock, and tap coefficient is [0 ,-3,14,25 ,-5,1]/32; In phase place is 11 o'clock, and tap coefficient is [1 ,-3,11,27 ,-5,1]/32; In phase place is 12 o'clock, and tap coefficient is [0 ,-2,9,28 ,-4,1]/32; In phase place is 13 o'clock, and tap coefficient is [0 ,-2,7,30 ,-4,1]/32; In phase place is 14 o'clock, and tap coefficient is [0 ,-1,4,31 ,-3,1]/32; In phase place is 15 o'clock, and tap coefficient is [0,0,2,32 ,-2,0]/32.
Adopt 2 tap interpolation filter N of 1/2 pixel accuracy for chromatic component, the filter of interpolation adopts 2 taps, and tap coefficient is determined according to phase place.As shown in Figure 4, be specifically as follows:
In phase place is 0 o'clock, and tap coefficient is [32,0]/32, is 1 o'clock in phase place, and tap coefficient is [16,16]/32.
As shown in Figure 1, the processing procedure during the luminance component interpolation comprises:
(1) at first carries out vertical interpolation, utilize nearest and inferior 2 near whole picture element interpolation under nearest and inferior near 2 whole picture elements directly over A and the A and C and the C to obtain 1/16 picture element of 16 outs of phase between whole picture element A, the C, utilize nearest and inferior 2 near whole picture element interpolation under nearest and inferior near 2 whole picture elements directly over B and the B and D and the D to obtain 1/16 picture element of 16 outs of phase between whole picture element B, the D;
(2) then, carry out lateral interpolation, utilize the A and the A left side recently and time near 2 whole picture elements and B and B the right recently and time 2 near whole picture element interpolation obtain whole picture element A, 1/16 picture element of 16 outs of phase between the B, remaining 1/16 picture element, it as the phase place in the middle of the accompanying drawing 14 point, utilize A, phase place between the C is 8 1/16 picture element, B, phase place between the D is 8 1/16 picture element, by between the nearest whole picture element in the nearest whole picture element in the A left side and the C left side vertically the phase place that obtains of interpolation be 8 1/16 picture element, the phase place that is obtained by vertical interpolation between time near whole picture element in time near whole picture element in the A left side and the C left side is 8 1/16 picture element, the phase place that is obtained by vertical interpolation between the nearest whole picture element in B the right and the nearest whole picture element in D the right is 8 1/16 picture element, the phase place that is obtained by vertical interpolation between time near whole picture element in time near whole picture element in B the right and D the right is that to utilize phase place be that 4 brightness interpolating filter interpolation obtains for 8 1/16 picture element.As shown in Figure 4, carry out vertical interpolation during the chromatic component interpolation earlier, utilize A and C interpolation to obtain 1/2 picture element of 2 outs of phase between whole picture element A, the C, utilize B and D interpolation to obtain 1/2 picture element of 2 outs of phase between whole picture element B, the D; Carry out lateral interpolation then, utilize A and B interpolation to obtain 1/2 picture element of 2 outs of phase between whole picture element A, the B, remaining 1/2 picture element, it as the phase places in the middle of the accompanying drawing 21 point, utilizing phase place between A, the C is 1 1/2 picture element, and the phase place between B, the D is 1 1/2 picture element, utilize phase place is that 1 chroma interpolation filter interpolation obtains.
Tap coefficient recited above can multiply by 2 integral number power, adopt 2 tap interpolation filter N of 1/2 pixel accuracy as chromatic component, the filter of interpolation adopts 2 taps, tap coefficient is determined according to phase place, is 0 o'clock in phase place, and tap coefficient is [32,0]/32, in phase place is 1 o'clock, and tap coefficient is [16,16]/32.Its tap coefficient can be revised as in phase place be 0 o'clock by multiply by 2 integral number power, and tap coefficient is [16,0]/16, is 1 o'clock in phase place, tap coefficient is [8,8]/16 or is in phase place that tap coefficient is [64,0]/64 at 0 o'clock, in phase place is 1 o'clock, and tap coefficient is [32,32]/64.
The present invention also provides the embodiment of the device of interpolation in a kind of scalable video compression, and its specific implementation structure mainly comprises as shown in Figure 5:
Adopt the brightness interpolating filter of first predetermined accuracy and the first predetermined tap coefficient, be used for that luminance component is carried out filtering interpolation and handle;
Adopt the chroma interpolation filter of second predetermined accuracy and the second predetermined tap coefficient, be used for that each chromatic component is carried out filtering interpolation and handle;
Wherein, described first predetermined accuracy and second predetermined accuracy are separate, and the described first predetermined tap coefficient and the second predetermined tap coefficient are separate.
The brightness interpolating filter of described employing first predetermined accuracy and the first predetermined tap coefficient, and the form front of the chroma interpolation filter of described employing second predetermined accuracy and the second predetermined tap coefficient interpolation filter that specifically can adopt had in detail for example and described, so no longer describe in detail at this.
According to the compression performance needs in the actual application, described interpolation filter can adopt asymmetric set-up mode to realize; Certainly, also can adopt the mode of being symmetrical arranged to realize.
Be described further with the specific implementation of embodiment 1 and embodiment 2 device that to be example provide embodiments of the invention below in conjunction with Fig. 6.
Embodiment 1
Fig. 6 shows the device of interpolation in a kind of scalable video compression, it comprises the input unit 1 that is used for reading from basic unit whole pixel pixel value, be used to carry out the filtering interpolation device 2 of luminance component n phase-interpolation filtering, be used to carry out the interpolating apparatus 3 of chromatic component m phase-interpolation filtering, be used to export the output device 4 that interpolation result is given enhancement layer, be used to control the controller 5 of interpolation process.N wherein can get 16 or 8, and m can get 16 or 8 or 4 or 2.The tap number P of the interpolation filter of luminance component can be 6 or 4, and the tap number Q of the interpolation filter of chromatic component can be 2 or 4 or 6.The input unit 1 that is used for reading whole pixel pixel value wherein from basic unit, be used to carry out the filtering interpolation device 2 of luminance component n phase-interpolation filtering, be used to carry out the interpolating apparatus 3 of chromatic component m phase-interpolation filtering, be used to export interpolation result and give the output device 4 of enhancement layer, the controller 5 that is used to control interpolation process can be realized with software program on different platform or realize with hardware circuit.
Embodiment 2
Fig. 6 shows the device of interpolation in a kind of scalable video compression, it comprises the input unit 1 that is used for reading from basic unit whole pixel pixel value, be used to carry out 16 phase-interpolation filtering of luminance component, the tap number is 6 filtering interpolation device 2, be used to carry out 16 phase-interpolation filtering of chromatic component, the tap number is 2 interpolating apparatus 3, is used to export the output device 4 that interpolation result is given enhancement layer, is used to control the controller 5 of interpolation process.
When inter-layer prediction, be used for reading the input unit 1 of putting in order the pixel pixel value and read in the whole pixel pixel value of basic unit from basic unit, luminance component and chromatic component delivered to respectively by data/address bus be used to carry out 16 phase-interpolation filtering of luminance component, the tap number is 6 filtering interpolation device 2 and is used to carry out 16 phase-interpolation filtering of chromatic component, the tap number is 2 interpolating apparatus 3, the luminance component of basic unit is being used to carry out 16 phase-interpolation filtering of luminance component, the tap number is in 6 the filtering interpolation device 2, the control of controlled device 5, out of phase adopted corresponding interpolation filter interpolation to obtain passing to behind 1/16 picture element to be used to export interpolation result be used for the inter-layer prediction of scalable compressed for the output device 4 of enhancement layer, the chromatic component of basic unit is being used to carry out 16 phase-interpolation filtering of chromatic component, the tap number is in 2 the interpolating apparatus 3, the control of controlled device 5 is adopted corresponding interpolation filter interpolation to obtain passing to behind 1/16 picture element to be used to export interpolation result to out of phase and is used for the inter-layer prediction of scalable compressed for the output device 4 of enhancement layer.
The foregoing description is used for the present invention that explains, rather than limits the invention, and in the protection range of spirit of the present invention and claim, any modification and change to the present invention makes all fall into protection scope of the present invention.

Claims (10)

1, the method for interpolation in a kind of scalable video compression, this method is used for the inter-layer prediction of scalable video compression, in described forecasting process, comprises luminance component and chromatic component filtering interpolation are handled, it is characterized in that described filtering interpolation is handled and specifically comprised:
Adopt the mutual interpolation filter of independently determining precision to carry out filtering interpolation respectively to luminance component and chromatic component and handle, and describedly luminance component and chromatic component are carried out filtering interpolation handle the tap coefficient of the interpolation filter that adopts respectively and determine for independent mutually.
2, the method for interpolation in the scalable video compression according to claim 1 is characterized in that described interpolation filter comprises asymmetric setting.
3, the method for interpolation in the scalable video compression according to claim 1 is characterized in that described inter-layer prediction is meant basic unit's pattern in the frame.
4, according to the method for interpolation in claim 1, the 2 or 3 described scalable video compressions, it is characterized in that when adopting the general spatial demixing technology, described interpolation filter comprises:
Luminance component adopts 6 tap interpolation filters of 1/2 pixel accuracy, and chromatic component adopts 2 tap interpolation filters of 1/2 pixel accuracy;
Perhaps,
Luminance component adopts 4 tap interpolation filters of 1/2 pixel accuracy, and chromatic component adopts 2 tap interpolation filters of 1/2 pixel accuracy.
5, the method for interpolation in the scalable video compression according to claim 4 is characterized in that,
The form of 6 tap interpolation filters of described 1/2 pixel accuracy is:
{ Co 1, Co 2, Co 3, Co 4, Co 5, Co 6}/[Co 1+ Co 2+ Co 3+ Co 4+ Co 5+ Co 6], Co iBe filter tap coefficients, i=1...6 wherein, concrete tap coefficient is [1 ,-5,20,20 ,-5,1]/32, and interpolation filter tap coefficient Co iValue also comprises round (Co i* 2 j) ± 1, i=1...6 wherein, j is an arbitrary integer;
The form of 4 tap interpolation filters of described 1/2 pixel accuracy is:
{ Eo 1, Eo 2, Eo 3, Eo 4}/[Eo 1+ Eo 2+ Eo 3+ Eo 4], Eo iBe filter tap coefficients, i=1...4 wherein, concrete tap coefficient is [5,21,21 ,-5]/32, and interpolation filter tap coefficient Eo iValue also comprises round (Eo i* 2 j) ± 1, i=1...4 wherein, j is an arbitrary integer;
The form of 2 tap interpolation filters of described 1/2 pixel accuracy is:
{ Do 1, Do 2}/[Do 1+ Do 2], Do iBe filter tap coefficients, i=1...2 wherein, concrete tap coefficient is [16,16]/32; And interpolation filter tap coefficient Do iValue also comprises round (Do i* 2 j) ± 1, i=1...2 wherein, j is an arbitrary integer.
6, according to the method for interpolation in claim 1, the 2 or 3 described scalable video compressions, it is characterized in that when adopting extending space demixing technology ESS, described interpolation filter comprises:
Luminance component adopts 6 tap interpolation filters of 1/16 pixel accuracy, and chromatic component adopts the 2 tap interpolation filters of 1/16 pixel accuracy or 2 tap interpolation filters or the 2 tap interpolation filters of 1/4 pixel accuracy or the 2 tap interpolation filters of 1/2 pixel accuracy of 1/8 pixel accuracy;
Perhaps,
Luminance component adopts 4 tap interpolation filters of 1/16 pixel accuracy, and chromatic component adopts the 2 tap interpolation filters of 1/16 pixel accuracy or 2 tap interpolation filters or the 2 tap interpolation filters of 1/4 pixel accuracy or the 2 tap interpolation filters of 1/2 pixel accuracy of 1/8 pixel accuracy;
Perhaps,
Luminance component adopts 6 tap interpolation filters of 1/8 pixel accuracy, and chromatic component adopts 2 tap interpolation filters or the 2 tap interpolation filters of 1/4 pixel accuracy or the 2 tap interpolation filters of 1/2 pixel accuracy of 1/8 pixel accuracy;
Perhaps,
Luminance component adopts 4 tap interpolation filters of 1/8 pixel accuracy, and chromatic component adopts 2 tap interpolation filters or the 2 tap interpolation filters of 1/4 pixel accuracy or the 2 tap interpolation filters of 1/2 pixel accuracy of 1/8 pixel accuracy.
7, the method for interpolation is characterized in that during 6 described scalable videos compressed as requested,
6 tap interpolation filter forms of described 1/16 pixel accuracy are:
{ Go 1, Go 2, Go 3, Go 4, Go 5, Go 6}/[Go 1+ Go 2+ Go 3+ Go 4+ Go 5+ Go 6], wherein, Go iBe filter tap coefficients, i=1...6 wherein, concrete tap coefficient determine that according to phase place to phase place 15, corresponding tap coefficient is followed successively by: [0,0,32,0,0 by phase place 0,0]/32, [0 ,-2,32,2,0,0]/32, [1 ,-3,31,4 ,-1,0]/32, [1 ,-4,30,7 ,-2,0]/32, [1 ,-4,28,9 ,-2,0]/32, [1 ,-5,27,11 ,-3,1]/32, [1 ,-5,25,14,-3,0]/32, [1 ,-5,22,17 ,-4,1]/32, [1 ,-5,20,20 ,-5,1]/32, [1 ,-4,17,22 ,-5,1]/32, [0 ,-3,14,25,-5,1]/32, [1 ,-3,11,27 ,-5,1]/32, [0 ,-2,9,28 ,-4,1]/32, [0 ,-2,7,30 ,-4,1]/32, [0 ,-1,4,31,-3,1]/32, [0,0,2,32 ,-2,0]/32; And, interpolation filter tap coefficient Go iValue also comprises round (Go i* 2 j) ± 1, i=1...6 wherein, j is an arbitrary integer;
The form of 6 tap interpolation filters of described 1/8 pixel accuracy is:
{ Io 1, Io 2, Io 3, Io 4, Io 5, Io 6}/[Io 1+ Io 2+ Io 3+ Io 4+ Io 5+ Io 6], Io iBe filter tap coefficients, i=1...6 wherein, concrete tap coefficient determine that according to phase place to phase place 8, corresponding tap coefficient is followed successively by: [0,0,32,0,0 by phase place 0,0]/32, [1 ,-3,31,4 ,-1,0]/32, [1 ,-4,28,9 ,-2,0]/32, [1 ,-5,25,14 ,-3,0]/32, [1 ,-5,20,20 ,-5,1]/32, [0 ,-3,14,25 ,-5,1]/32, [0 ,-2,9,28,-4,1]/32, [0 ,-1,4,31 ,-3,1]/32; And, interpolation filter tap coefficient Io iValue also comprises round (Io i* 2 j) ± 1, i=1...6 wherein, j is an arbitrary integer;
The form of 4 tap interpolation filters of described 1/16 pixel accuracy is:
{ Ko 1, Ko 2, Ko 3, Ko 4}/[Ko 1+ Ko 2+ Ko 3+ Ko 4], Ko iBe filter tap coefficients, i=1...4 wherein, concrete tap coefficient determine that according to phase place to phase place 16, corresponding tap coefficient is followed successively by: [0,32,0 by phase place 0,0]/32, [2,32,2,0]/32, [3,32,4 ,-1]/32, [4,31,6 ,-1]/32, [5,29,9 ,-2]/32, [5,28,12 ,-3]/32, [5,26,15 ,-4]/32, [5,23,18,-4]/32 ,-5,21,21 ,-5]/32, [4,18,23 ,-5]/32,, [4,15,26 ,-5]/32, [3,12,28 ,-5]/32, [2,9,29,-5]/32, [1,6,31 ,-4]/32, [1,4,31 ,-3]/32, [0,2,32 ,-2]/32; And, interpolation filter tap coefficient Ko iValue also comprises round (Ko i* 2 j) ± 1, i=1...4 wherein, j is an arbitrary integer;
The form of 4 tap interpolation filters of described 1/8 pixel accuracy is:
{ Oo 1, Oo 2, Oo 3, Oo 4}/[Oo 1+ Oo 2+ Oo 3+ Oo 4], Oo iBe filter tap coefficients, i=1...4 wherein, concrete tap coefficient determine that according to phase place to phase place 8, corresponding tap coefficient is followed successively by: [0,32,0 by phase place 0,0]/32, [3,32,4 ,-1]/32, [5,29,9 ,-2]/32, [5,26,15,-4]/32, [5,21,21 ,-5]/32, [4,15,26 ,-5]/32, [2,9,29 ,-5]/32, [1,4,31 ,-3]/32; And, interpolation filter tap coefficient Oo iValue also comprises round (Oo i* 2 j) ± 1, i=1...4 wherein, j is an arbitrary integer;
The form of 2 tap interpolation filters of 1/16 pixel accuracy is: { Fo 1, Fo 2}/[Fo 1+ Fo 2], Fo iBe filter tap coefficients, i=1...2 wherein, concrete tap coefficient determine that according to phase place to phase place 16, corresponding tap coefficient is followed successively by: [32,0]/32, [30 by phase place 0,2]/32, [28,4]/32, [27,5]/32, [25,7]/32,, [22,10]/32, [20,12]/32, [18,14]/32, [16,16]/32, [14,18]/32, [12,20]/32, [10,22]/32,, [7,25]/32, [5,27]/32, [4,28]/32, [2,30]/32; And, interpolation filter tap coefficient Fo iValue also comprises round (Fo i* 2 j) ± 1, i=1...2 wherein, j is an arbitrary integer;
1/8 pixel accuracy the form of 2 tap interpolation filters be: { Ho 1, Ho 2}/[Ho 1+ Ho 2], Ho iBe filter tap coefficients, i=1...2 wherein, concrete tap coefficient determine that according to phase place to phase place 8, corresponding tap coefficient is followed successively by: [32,0]/32, [28 by phase place 0,4]/32, [25,7]/32, [20,12]/32, [16,16]/32,, [12,20]/32, [7,25]/32, [4,28]/32; And, interpolation filter tap coefficient Ho iValue also comprises round (Ho i* 2 j) ± 1, i=1...2 wherein, j is an arbitrary integer;
1/4 pixel accuracy the form of 2 tap interpolation filters be: { Mo 1, Mo 2}/[Mo 1+ Mo 2], Mo iBe filter tap coefficients, i=1...2 wherein, concrete tap coefficient determine that according to phase place to phase place 4, corresponding tap coefficient is followed successively by: [32,0]/32, [25,7]/32, [16,16]/32, [7,25]/32 by phase place 0; And, tap coefficient Mo iValue also comprises round (Mo i* 2 j) ± 1, i=1...2 wherein, j is an arbitrary integer;
The form of 2 tap interpolation filters of 1/2 pixel accuracy is: { No 1, No 2}/[No 1+ No 2], No iBe filter tap coefficients, i=1...2 wherein, concrete tap coefficient determine according to phase place, are 0 o'clock in phase place, and tap coefficient is [32,0]/32, is 1 o'clock in phase place, and tap coefficient is [16,16]/32, and interpolation filter tap coefficient No iValue also comprises round (No i* 2 j) ± 1, i=1...2 wherein, j is an arbitrary integer.
8, the device of interpolation in a kind of scalable video compression is characterized in that, comprising:
Adopt the brightness interpolating filter of first predetermined accuracy and the first predetermined tap coefficient, be used for that luminance component is carried out filtering interpolation and handle;
Adopt the chroma interpolation filter of second predetermined accuracy and the second predetermined tap coefficient, be used for that each chromatic component is carried out filtering interpolation and handle;
Wherein, described first predetermined accuracy and second predetermined accuracy are separate, and the described first predetermined tap coefficient and the second predetermined tap coefficient are separate.
9, the device of interpolation in the scalable video compression according to claim 8 is characterized in that described interpolation filter comprises asymmetric setting.
10, the device of interpolation according to Claim 8 or in the compression of 9 described scalable videos is characterized in that this device specifically comprises:
Be used for reading the input unit (1) of whole pixel pixel value from basic unit;
Be used to carry out luminance component n phase-interpolation filtering, the tap number is the filtering interpolation device (2) of P;
Be used to carry out chromatic component m phase-interpolation filtering, the tap number is the interpolating apparatus (3) of Q;
Be used to export the output device (4) that interpolation result is given enhancement layer;
Be used to control the controller (5) of interpolation process;
Be used for reading an output parallel connection of the input unit (1) of putting in order the pixel pixel value by being used to carry out luminance component n phase-interpolation filtering from basic unit, the tap number is that filtering interpolation device (2) back of P and being used to is exported interpolation result and is connected to the output device (4) of enhancement layer, be used for reading another output parallel connection of the input unit (1) of putting in order the pixel pixel value by being used to carry out chromatic component m phase-interpolation filtering from basic unit, the tap number is that interpolating apparatus (3) back of Q and being used to is exported interpolation result and is connected to the output device (4) of enhancement layer, be used to control interpolation process controller (5) one ends n output and be used to carry out luminance component n phase-interpolation filtering, the tap number is that the filtering interpolation device (2) of P links to each other, be used to control interpolation process controller (5) other end m output and be used to carry out chromatic component m phase-interpolation filtering, the tap number is that the interpolating apparatus (3) of Q is continuous.
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