CN1819007A - Dynamic drawing indexing method - Google Patents
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Abstract
A random dynamic creating design index method, apply for dynamic design index system to improve the color representation of liquid crystal display, the method includes the following steps: providing the video data to the dynamic design index system; using the random-number creating unit create the random random-number in the dynamic design index system; take M number of digit of the random random-number as the finger; the finger as the location code of the dynamic design index matrix; using the location code of the M*1 to calculate the dynamic design index matrix of the M*N.
Description
Technical field
The invention relates to a kind of tone amplification technique that the digital element image shows the field that is used for, especially a kind of stochastic and dynamic drawing indexing that adopts is to reach the effect of tone amplification.
Background technology
LCD has low power consumption, low radiation, in light weight and slimming main advantages such as (volume are little), therefore be widely used among the portable notebook computer, recent lasting exploitation along with large size panel, LCD also occupies a tiny space in the type graphoscope gradually on the table, the trend that replaces traditional iconoscope TV is more arranged now, yet lcd technology manifests its technical bottleneck in the performance of dynamic image.
Liquid crystal display has its technical bottleneck on color representation, main cause is that LCD is when practical manifestation, can't truly present gradation as visible picture, the phenomenon that the real colour degree of display image lowers can take place in LCD when high display resolution again; And how to make LCD when display image, can as real color, be major issue to be solved in the lcd technology.
The tone amplification technique is generally in order to solve the difficulty of LCD in the color representation deficiency, it is applied to the digital element image and shows the field, especially extensively be built in TFT-LCD in, it mainly is to have utilized shake (Dithering) and frame (frame) digit rate control (Frame Rate Control, FRC), its principle takes the space technology of mix colors to reach tone expanding effect visually for cooperating the synthesising physiological of human vision.
Please refer to the synoptic diagram of Fig. 1 for typical tandem tone amplification system.Tandem tone amplification system 1 is to be made of multimedia player 10 (Player), comprise pattern generator 12 (Pattern Generator) in the multimedia player 10, comprise processing unit 14 in the pattern generator 12, wherein, processing unit 14 can be display card or processor comprises time schedule controller 16 (T-CON), comprises drawing indexing system 18 in the time schedule controller 16.Generally speaking, 1 its action of tandem tone amplification system is done preposition tone amplification for the processing unit 14 in the pattern generator 12 with its video data and is handled (Fixed-pattern), and is carried out the processing of rear end display device tone amplification again by the drawing indexing system in the time schedule controller 16 18.
Please be the synoptic diagram of drawing indexing system simultaneously with reference to shown in Figure 1B, wherein, drawing indexing system 18 comprises data analysis unit 181, drawing indexing table 182 and data processing unit 183.Existing tone amplification technique mostly uses fixing drawing indexing table 182 (or claiming pattern table), drawing indexing table 182 is directly imported or burned time schedule controller in, with foundation as flating; Wherein, the video data of handling through the tone amplification of front end inputs in the data analysis unit 181 for the i position, according to the fixing drawing indexing table 182 of its video data inquiry, export with the j position via the shake data that data processing unit 183 computings determine, wherein j is less than or equal to i again.
And use fixing drawing indexing to have two shortcomings: one, be difficult for searching out the reference value of optimization drawing indexing; Two; when the front end processing unit is implemented preposition tone amplification technique simultaneously; the synthetic unexpected spuious lines of tone amplification on the display device of Chang Liantong rear end; often regular meeting is with tangible stepped striped in picture performance gradual change, and this series connection tone amplification device influences very hard iron of picture quality towards phenomenon.
Summary of the invention
The method that the object of the present invention is to provide different dynamic drawing indexings to produce is in order to improve the LCD color representation, to reach the effect that tone increases.
A kind of stochastic and dynamic of the present invention produces the method for drawing indexing, be applied to the dynamic drawing indexing system, in order to improve the LCD color representation, dynamic drawing indexing system receiving video data, each time pixel (sub-pixel) data process to it to utilize random number generation unit in the dynamic drawing indexing system, form the shake data (Dithering) of pixel (Pixel), data line (Line) and three dimensions of frame (Frame) and interweave.The method that stochastic and dynamic produces drawing indexing comprises the following step: provide video data to the dynamic drawing indexing system; Utilize that the random number generation unit produces random number at random in the dynamic drawing indexing system; M the position of getting random number at random is as pointer; With the position code of pointer as the dynamic drawing indexing matrix; Repeat the above-mentioned step of obtaining pointer M time, with M pointer asking for position code (PosCode) as the dynamic drawing indexing matrix; And utilize position code to produce the dynamic drawing indexing matrix of M * N do computing.
The method that another kind of stochastic and dynamic produces drawing indexing comprises the following step: provide video data to the dynamic drawing indexing system; Utilize that this random number generation unit produces random number at random in this dynamic drawing indexing system; M the position of getting random number at random is as pointer; With the position code (1,1) of this pointer as a row dynamic drawing indexing matrix; Utilize the position code (1,1) of this index matrix to calculate the vector position sign indicating number of dynamic drawing indexing matrix; And utilize the vector position sign indicating number to produce the dynamic drawing indexing matrix of M * N do computing.
Description of drawings
Figure 1A is a typical tandem tone amplification system synoptic diagram;
Figure 1B is prior art one a drawing indexing system schematic;
Fig. 2 A is the present invention's one tandem tone amplification system synoptic diagram;
Fig. 2 B is the synoptic diagram of the present invention one dynamic drawing indexing system;
Fig. 3 A is the synoptic diagram of the present invention's one a random number generation unit and a dynamic drawing indexing generation unit;
Fig. 3 B is the linear feedback shift register synoptic diagram of the present invention's one random number generation unit;
Fig. 4 A is the synoptic diagram of one embodiment of the invention M * 1 position code;
Fig. 4 B is the synoptic diagram of one embodiment of the invention M * 1 position code;
Fig. 4 C is one embodiment of the invention calculates the dynamic drawing indexing matrix by position code a process flow diagram;
Fig. 5 A is the synoptic diagram that the matrix operation of one embodiment of the invention dynamic drawing indexing goes out a plurality of dynamic drawing indexing matrixes;
Fig. 5 B is the synoptic diagram of the broken shape dynamic drawing indexing of one embodiment of the invention matrix operation;
Fig. 5 C is the synoptic diagram of the broken shape dynamic drawing indexing of one embodiment of the invention matrix operation; And
Fig. 5 D is the synoptic diagram of the broken shape dynamic drawing indexing of one embodiment of the invention matrix.
[main element label declaration]
3 display device, 18 drawing indexing systems
28 dynamic drawing indexing systems, 182 drawing indexing tables
282 random number generation units, 2822 linear counting devices
The linear feedback shift register of 2821a
283 dynamic drawing indexing generation units
1,2 tandem tone amplification systems, 10,20 multimedia players
12,22 pattern generators, 14,24 processing units
16,26 time schedule controllers
181,281 data analysis unit
183,284 data processing units
A, b, c, d pointer
A
1, A
2, A
3, A
4Matrix
C
1, C
2, C
3, C
4Frame
K
1, K
3, K
5Predetermined number
B[0], B[1], B[2], B[3], B[4], B[5], B[6], B[7], B[8], B[9], B[0] ', B[1] ', B[2] ', B[3] ', B[4] ', B[5] ', B[6] ', B[7] ', B[8] ', B[9] ' position
Embodiment
The invention provides the method that a kind of stochastic and dynamic drawing indexing produces, the neutral gear between picture (frame) can dynamically and at random produce new dynamic drawing indexing matrix (table), is different from drawing indexing table fixing in the prior art.
Please refer to Fig. 2 A, be one embodiment of the invention one tandem tone amplification system 2 synoptic diagram.Be made of a multimedia player 20, comprise pattern generator 22 in the multimedia player 20, comprise processing unit 24 in the pattern generator 22, processing unit 24 comprises time schedule controller 26 (T-CON), comprises dynamic drawing indexing system 28 in the time schedule controller 26.
Fig. 2 B is the synoptic diagram of an embodiment dynamic drawing indexing system.Dynamic drawing indexing system 28 comprises data analysis unit 281, random number generation unit 282, dynamic drawing indexing generation unit 283 and data processing unit 284.Wherein data analysis unit receives the i digital video data from time schedule controller, the following pixel of its video data (Sub-Pixel) video data is inputed to random number generation unit 282, wherein, each pixel system can divide into pixel three times, that is: red (R), green (G), blue (B) three pixels or yellow (Y), dark green (C), three pixels of carmetta (M) are to wield the color that each pixel is showed.Certainly, each pixel also can be divided into pixel four times, that is: red (R), green (G), blue (B) three pixels and another the 4th sub picture element, this another the 4th sub picture element can be color arbitrarily, as: red (R), green (G), blue (B), yellow (Y), purple (V), indigo look (I), carmetta (M), dark green (C) or colourless (colorless), and each pixel also can be divided into six pixels or eight pixels, and each time pixel is arranged and color is selected voluntarily by the user.Comprise a plurality of linear feedback shift register (Linear Feedback ShiftRegister in the random number generation unit 282, LFSR), to produce at random random number and to input to dynamic drawing indexing generation unit 283, utilizing at random, random number produces dynamic drawing indexing matrix (Dynamic Index Matrix) to export data processing unit 284 to, by data processing unit 284 output j position shake data (Dithering), wherein i is more than or equal to j at last.
The present invention utilizes and produces the high random number at random of random degree, and the numerical value of random number at random that promptly occurs and obtain is uniformly, and calculation obtains the dynamic drawing indexing matrix with the foundation as the shake data.When the shake data between each or several frames (frame) data, be applied in the pixel and as the reference of image update, its flutter effect can be broken up profile.And since the random number in this dynamic drawing indexing matrix at random and random degree uniform, all add this shake mixed color effect as if entire image, the border of its digital picture will be by softening.For according to the shake data and then be woven into the image of pixel (pixel), data line (line) and three dimensions of frame (frame), can use the existing digital color of less bits numerical table than long number, form the preferable picture of image quality.
Below will enumerate several embodiment with explanation, the pointer by random number at random obtains obtains several different drawing indexing matrixes by different computings, but is not in order to limit the scope of the invention; As different random number producing methods, but institute desires to be effective when identical, also do not break away from spirit of the present invention.
Please be simultaneously with reference to Fig. 3 A and Fig. 3 B, Fig. 3 A is the synoptic diagram of the present invention's one a random number generation unit and a dynamic drawing indexing generation unit, Fig. 3 B is the synoptic diagram of linear feedback shift register.Wherein, comprise an at least one linear feedback shift register 2821a (LFSR) and a linear counting device 2822 in the random number generation unit 282, in the present embodiment as an illustration, to explain 282 runnings of random number generation unit with the LFSR 2821a of ten (10Bits).
In the present embodiment, LFSR 2821a is the computing of the video data that is received being XOR (XOR), with very big bit sequence of generation cycle.Wherein, the generation step of random number is at random: receiving video data is as the initial value of LFSR 2821a generation random number, and wherein, if video data is 0 o'clock, random number will still export 0 with the shake data at random; If when video data is not 0, it is as the initial value of LFSR 2821a, video data is 10 a digital signal again, its signal from be low to moderate most most significant digit arrange be B[0 in regular turn], B[1], B[2], B[3], B[4], B[5], B[6], B[7], B[8], B[9] totally ten.B[2 wherein] and B[9] will become B[0 in the random number at random via the result that XOR gate calculated] ', and initial value B[0], B[1], B[2], B[3], B[4], B[5], B[6], B[7], B[8] successively as the figure place B[1 of random number at random] ', B[2] ', B[3] ', B[4] ', B[5] ', B[6] ', B[7] ', B[8] ', B[9] ', so, just, produce random number at random.The random number at random that is produced is through linear counting device (Line Counter), with decision data are added 1 or do not add 1, and feedback to LFSR 2821a, the LFSR 2821a random number at random that it is new on the one hand exports dynamic drawing indexing generation unit 283 to, to shake (Dithering), on the other hand with this new random number at random as the new initial value of LFSR 2821a.
In this way, the new random number at random that produces produces next one random number at random more promptly as the new initial value of LFSR 2821a, so constantly circulation.The following feature of the tool of random number at random of Chan Shenging (decimally statement) in the manner described above:
(1) each random number that produces does not exceed 210 scopes, promptly more than or equal to 1 and smaller or equal to 1023 integer.
(2) cycle period is 1023 times (deduction 0 occur probability), and promptly in 1023 continuous random numbers of intercepting arbitrarily, each integer between 1 to 1023 (comprise 1 and 1023 itself) all only can occur once.?
(3) whole random number sequence is long more, and the probability that each integer between 1 to 1023 occurs will infinitely be approached same value, be 1/1023.
Random number can be considered a plurality of Dn group position institute and combines at random again, n=1~N wherein, each D
1~D
NComprise m position.With present embodiment, random number is divided into D at random
1, D
2, D
3, D
4, D
5Five groups, each D
1~D
5In comprise 2 positions, i.e. D
1In comprise B[1] ' and B[0] ', D
2In comprise B[3] ' and B[2] ' ... by that analogy.Right itself and non-limiting scope of the present invention, its packet mode can be according to different demands, and different row's methods is arranged.
The dynamic drawing indexing generation unit can be chosen wherein one group of D after receiving at random random number
XAs pointer a wherein, X=1~N; Or choose one group of D
YAs guide, with indication the group D that should obtain
X, wherein, X=1~N and Y=1~N.For example: from getting D in the random number at random
1As pointer a, to do the follow-up position code (PosCode) that will produce dynamic drawing indexing; Or with D in the random number at random
1In two positions as guide, with indication the pointer that should obtain why organize, work as D
1In two be 00 o'clock, promptly be directed to D
2As pointer a, work as D
1In two be 01 o'clock, promptly be directed to D
3As pointer a, work as D
1In two be 10 o'clock, promptly be directed to D
4As pointer a, work as D
1In two be 11 o'clock, promptly be directed to D
5As pointer a.And repeat this process, with unduplicated random number at random obtain remaining position code b, c ..., and produce the capable vector position sign indicating number of M * 1, so that follow-uply can calculate out M * N dynamic drawing indexing matrix (Dynamic Index Matrix); The column vector position code that can also this mode produces 1 * N, and calculate out M * N dynamic drawing indexing matrix with this column vector position code; Also or when obtaining pointer, be about to this pointer and do column operations, produce column vector, and repeat this process and obtain a plurality of column vectors, and be combined into M * N dynamic drawing indexing matrix.
Please implement the synoptic diagram of customary vector position sign indicating number for the present invention two simultaneously with reference to Fig. 4 A and B.Among Fig. 4 A, choosing of this embodiment pointer is that principle by above-mentioned Fig. 3 gets, and in this embodiment, pointer a, b, c and d represent 01,10,01,11 respectively, though so under the average situation of probability, it is identical the represented number of pointer might occurring.
Among Fig. 4 B, this embodiment further attaches an algorithm and obtains in row vector position sign indicating number, take place with the situation of avoiding repeating obtaining position code, and its row vector position sign indicating number adquisitiones is: obtain pointer a by random number at random earlier; Obtain pointer b by random number at random through computing again, pointer b then is excluded in the numerical value of pointer a representative outside the range of choice, chooses a value with as pointer b from remaining numerical value; Pointer c then is excluded in the numerical value of pointer a and b representative outside the range of choice, chooses a value with as pointer c from remaining numerical value; According to this mode obtain follow-up pointer d, e .... etc.
As: when pointer a was 01, then pointer b then can choose value representative from 00,10 and 11 among the figure, and when pointer b was chosen for 10, pointer c then can choose value representative from 00 and 11, and when pointer c was chosen for 00, pointer d then was 11.When on behalf of numerical value, pointer be two positions (00,01,10,11), its pointer a, b, c, d will have the different arrangement mode of 4 * 3 * 2 * 1=24 kind, and these 24 kinds of arrangement modes are quadrature (orthogonal), and promptly arrangement mode can not repeat.
One dynamic drawing indexing matrix embodiment utilizes 1st row of row vector position sign indicating number as the dynamic drawing indexing matrix, and the anti-phase back of position code as the 2nd row, is added predetermined value K with the 2nd row again
3As the 3rd row, the 3rd row is anti-phase again as the 4th row, the 4th row is added K
5As the 5th the row, so successively with 2n-1 capable anti-phase as 2n capable after, again with the capable predetermined value K that adds of 2n
2n+1Capable as 2n+1, wherein, n=1~N.As shown in Fig. 4 C: 4 * 4 dynamic drawing indexing matrix, wherein, advance as the 1st and calculate the dynamic drawing indexing matrix, pointer a=01, b=10, c=00, d=11, predetermined several K with the capable vector position sign indicating number among Fig. 4 B
3=[10] as the 2nd row, add K with the 2nd row with its anti-phase back of the 1st row again
3=[10] are as the 3rd ranks, and are at last that the 3rd row is anti-phase again as the 4th row.
Please refer to and Figure 5 shows that a dynamic drawing indexing matrix utilizes broken shape calculation to be that the synoptic diagram of a plurality of dynamic drawing indexing matrixes, broken shape (Fractal) are the idea of a kind of self-replacation (self clone).Among Fig. 5 A, this embodiment produces Fig. 4 C the dynamic drawing indexing matrix A of 4 frames (frame)
1, wherein four frames are respectively C
1, C
2, C
3And C
4, with matrix A
1Get 1 complement code (anti-phase) as matrix A
2, matrix A
2Add that numerical value 10 becomes matrix A
3, with matrix A
3The anti-phase matrix A that becomes
4This promptly utilizes the phenomenon of self-replacation in the broken shape, and original 4 frames are amplified to 16 frames, forms four groups of dynamic drawing indexing matrixes.Certainly Using such method also can be amplified and is formed up to 32 frames, as Fig. 5 B; Or choose matrix A
1With A
3As the unit of its self-replacation, as Fig. 5 C; Also can choose matrix A
2With A
4As the unit of its self-replacation, as Fig. 5 D.
Narrate in the preferred embodiment by top, can know, the present invention has disclosed the method that different dynamic drawing indexing matrixes produces, so that the dynamic drawing indexing system effectively reaches the effect of tone amplification, with the existing digital color of less bits numerical table, also can effectively solve the amplification of LCD tone and the tone amplification that preposition tone amplification the is handled problem that (Cascade) dash mutually of connecting than long number.
The above is to utilize preferred embodiment to describe the present invention in detail, but not limit the scope of the invention, and those skilled in the art all can understand, suitably do slightly change and adjustment, will not lose main idea of the present invention place, also not break away from the spirit and scope of the present invention.
Claims (26)
1. a stochastic and dynamic produces the method for drawing indexing, be applied to the dynamic drawing indexing system, in order to improve the LCD color representation, this dynamic drawing indexing system receiving video data, each time pixel data processes to it to utilize random number generation unit in this dynamic drawing indexing system, form the shake data of pixel, data line and three dimensions of frame and interweave, the method that this stochastic and dynamic produces drawing indexing comprises the following step:
Provide video data to this dynamic drawing indexing system;
Utilize that this random number generation unit produces random number at random in this dynamic drawing indexing system;
Get this at random m of random number position as pointer;
With the position code of this pointer as the dynamic drawing indexing matrix;
Repeat the above-mentioned step of obtaining this pointer M time, with M pointer asking for position code as this dynamic drawing indexing matrix; And
Utilize this position code to produce the dynamic drawing indexing matrix of M * N do computing.
2. stochastic and dynamic according to claim 1 produces the method for drawing indexing, wherein comprises a plurality of linear feedback shift registers in this random number generation unit, with this each time the pixel video data produce this random number at random do computing.
3. stochastic and dynamic according to claim 1 produces the method for drawing indexing, wherein this at random random number can divide into the N group, each group comprises m position, and utilization wherein one group of position as this pointer.
4. stochastic and dynamic according to claim 1 produces the method for drawing indexing, wherein also comprise step before as the step of guiding in m of random number position at random getting this: this at random random number can divide into the N group, wherein each group comprises m position, be to utilize wherein one group of position to guide, so that from this N group position, specify one group of position as this pointer.
5. stochastic and dynamic according to claim 1 produces the method for drawing indexing, and wherein this position code is row vector position sign indicating number (M * 1).
6. stochastic and dynamic according to claim 5 produces the method for drawing indexing, and wherein the two-dimentional dynamic drawing indexing matrix formation method of this M * N is that this row vector position sign indicating number is added that predetermined several Nn*3 are capable as this matrix n, wherein n=1~N.
7. the method for dynamic drawing indexing according to claim 5 system, this M * N drawing indexing matrix wherein as the 1st row, is got 1 complement code (anti-phase) back as 2nd row with the 1st row by this row vector position sign indicating number, again the 2nd row is added predetermined value K
1As the 3rd row, the 3rd row is got 1 complement code again as the 4th row, so successively with 2n-1 capable get 1 complement code as 2n capable after, add that predetermined value Kn is capable as 2n+1 with 2n is capable again, wherein, n=1~(N/2-1).
8. the method for dynamic drawing indexing according to claim 5 system, wherein this M * N drawing indexing matrix adds predetermined value K by this row vector position sign indicating number
1As the 1st row, the 1st row is got 1 complement code (anti-phase) back as the 2nd row, again the 2nd row is added predetermined value K
3As the 3rd row, the 3rd row is got 1 complement code again as the 4th row, the 1st behavior position code like this adds this predetermined value K
1, all the other successively with this 2n-1 capable get 1 complement code as this 2n capable after, again with the capable predetermined value K that adds of this 2n
2n-1Capable as 2n+1, wherein, n=1~N/2.
9. stochastic and dynamic according to claim 1 produces the method for drawing indexing, and wherein this position code is a column vector position code (1 * N).
10. stochastic and dynamic according to claim 9 produces the method for drawing indexing, and wherein the two-dimentional dynamic drawing indexing matrix formation method of this M * N is that this column vector position code is added that predetermined several Nn*3 are as this matrix n row, wherein n=1~N.
11. the method for dynamic drawing indexing according to claim 9 system, this M * N drawing indexing matrix wherein as the 1st row, is got 1 complement code (anti-phase) back as 2nd row with the 1st row by this column vector position code, again the 2nd row is added predetermined value K
1As the 3rd row, the 3rd row are got 1 complement code again as the 4th row, so successively the 2n-1 row are got 1 complement code as the 2n row after, again the 2n row are added predetermined value Kn as the 2n+1 row, wherein, n=1~(N/2-1).
12. dynamic drawing indexing according to claim 9 system, wherein this M * N drawing indexing matrix adds predetermined value K by this column vector position code
1As the 1st row, the 1st row are got 1 complement code (anti-phase) back as the 2nd row, again the 2nd row are added predetermined value K
3As the 3rd row, the 3rd row are got 1 complement code again as the 4th row, the like this 1st classifies position code as adds this predetermined value K
1, all the other successively this 2n-1 row are got 1 complement code as these 2n row after, again these 2n row are added predetermined value K
2n-1As the 2n+1 row, wherein, n=1~N/2.
13. stochastic and dynamic according to claim 1 produces the method for drawing indexing, wherein the ranks number of this M * N index matrix can equate, i.e. M=N.
14. a stochastic and dynamic produces the method for drawing indexing, be applied to the dynamic drawing indexing system, in order to improve the LCD color representation, this dynamic drawing indexing system receiving video data, each time pixel data processes to it to utilize random number generation unit in this dynamic drawing indexing system, form the shake data (Dithering) of pixel, data line and three dimensions of frame and interweave, the method that this stochastic and dynamic produces drawing indexing comprises the following step:
Provide video data to this dynamic drawing indexing system;
Utilize that this random number generation unit produces random number at random in this dynamic drawing indexing system;
Get this at random m of random number position as pointer;
With the position code (1,1) of this pointer as row dynamic drawing indexing matrix;
Utilize the position code (1,1) of this index matrix to calculate the vector position sign indicating number of this dynamic drawing indexing matrix; And
Utilize this vector position sign indicating number to produce the dynamic drawing indexing matrix of M * N do computing.
15. stochastic and dynamic according to claim 14 produces the method for drawing indexing, wherein comprises a plurality of linear feedback shift registers in this random number generation unit, with this each time the pixel video data produce this random number at random do computing.
16. stochastic and dynamic according to claim 14 produces the method for drawing indexing, wherein this at random random number can divide into the N group, each group comprises m position, and utilization wherein one group as this pointer.
17. stochastic and dynamic according to claim 14 produces the method for drawing indexing, wherein also comprise step before as the step of guiding in m of random number position at random getting this: this at random random number can divide into the N group, wherein each group comprises m position, be to utilize wherein one group of position to guide, so that from this N group position, specify one group of position as this pointer.
18. stochastic and dynamic according to claim 14 produces the method for drawing indexing, wherein this vector position sign indicating number is row vector position sign indicating number, utilizes this pointer to comprise as this position code (1,1) and then the method that calculates this row vector position sign indicating number:
This position code (1,1) got 1 complement code as this position code (2,1);
Again this position code (2,1) is added that predetermined value is as this position code (3,1); And
So successively position code (2n-1,1) is got 1 complement code as position code (2n, 1) after, again position code (2n, 1) is added predetermined value Kn as position code (2n+1,1), wherein, n=1~N/2.
19. method according to claim 18, wherein the two-dimentional dynamic drawing indexing matrix formation method of this M * N is that this line position sign indicating number is added that predetermined several Nn*3 are capable as this matrix n, wherein n=1~N.
20. dynamic drawing indexing according to claim 18 system, this M * N drawing indexing matrix wherein as the 1st row, is got 1 complement code (anti-phase) back as 2nd row with the 1st row by this row vector position sign indicating number, again the 2nd row is added predetermined value K
1As the 3rd row, the 3rd row is got 1 complement code again as the 4th row, so successively with 2n-1 capable get 1 complement code as 2n capable after, add that predetermined value Kn is capable as 2n+1 with 2n is capable again, wherein, n=1~(N/2-1).
21. dynamic drawing indexing according to claim 18 system, wherein this M * N drawing indexing matrix adds predetermined value K by this row vector position sign indicating number
1As the 1st row, the 1st row is got 1 complement code (anti-phase) back as the 2nd row, again the 2nd row is added predetermined value K
3As the 3rd row, the 3rd row is got 1 complement code again as the 4th row, the 1st behavior position code like this adds this predetermined value K
1, all the other successively with this 2n-1 capable get 1 complement code as this 2n capable after, again with the capable predetermined value K that adds of this 2n
2n-1Capable as 2n+1, wherein, n=1~N/2.
22. stochastic and dynamic according to claim 14 produces the method for drawing indexing, wherein this vector position sign indicating number is the column vector position code, utilizes this pointer to comprise as this position code (1,1) and then the method that calculates this column vector position code:
This position code (1,1) got 1 complement code as this position code (1,2);
Again this position code (1,2) is added that predetermined value is as this position code (1,3); And
So successively with position code (1,2n-1) get 1 complement code as position code (1,2n) after, again with position code (1,2n) add predetermined value Kn as position code (1,2n+1), wherein, n=1~N/2.
23. method according to claim 22, wherein the two-dimentional dynamic drawing indexing matrix formation method of this M * N is that this column vector position code is added that predetermined several Nn*3 are as this matrix n row, wherein n=1~N.
24. dynamic drawing indexing according to claim 22 system, this M * N drawing indexing matrix wherein as the 1st row, is got 1 complement code (anti-phase) back as 2nd row with the 1st row by this column vector position code, again the 2nd row is added predetermined value K
1As the 3rd row, the 3rd row are got 1 complement code again as the 4th row, so successively the 2n-1 row are got 1 complement code as the 2n row after, again the 2n row are added predetermined value Kn as the 2n+1 row, wherein, n=1~(N/2-1).
25. dynamic drawing indexing according to claim 22 system, wherein this M * N drawing indexing matrix adds predetermined value K by this column vector position code
1As the 1st row, the 1st row are got 1 complement code (anti-phase) back as the 2nd row, again the 2nd row are added predetermined value K
3As the 3rd row, the 3rd row are got 1 complement code again as the 4th row, the like this 1st classifies position code as adds this predetermined value K
1, all the other successively this 2n-1 row are got 1 complement code as these 2n row after, again these 2n row are added predetermined value K
2n-1As the 2n+1 row, wherein, n=1~N/2.
26. stochastic and dynamic according to claim 14 produces the method for drawing indexing, wherein this vector position sign indicating number can be perpendicular array, i.e. the wherein neither repetition of this each pointer.
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