JPS6057770A - Method for modulating differential pulse code of picture - Google Patents

Abstract

PURPOSE:To decrease overload and transmission of error by dividing a picture, setting an optimum forecase coefficient, a value of quantized levels and its number and an initial value at each divided picture and transmitting the picture by DPCM. CONSTITUTION:The transmitted picture is divided into plural partial pictures in transmitting the picture, and the divided partial picture is transmitted by the differential pulse code modulation having respectively different forecast coefficient, quantized level value, quantized level number and initial value data. Since the value of the quantized level and the number of quantized levels are made different at each divided partial picture in this way, overload noise hardly takes place, and since the intial value data of the DPCM is made different at each divided partial picture, transmission of error hardly occurs.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention provides differential pulse code control (hereinafter referred to as DPCM or adaptive DPCM) which can be used for recording and transmitting rain.
(referred to as C.1).

Conventional configurations and their problems In recent years, large-capacity memory required for image processing,
LSIs capable of high-speed calculations, recording media for recording large amounts of data, etc. will be unveiled at IJPC Mue [
(=The process is becoming easier.

The conventional adaptive DPC1vl will be described below with reference to the drawings.
We will explain how to do this. Figure 1 shows the adaptive D P Cf
This is an image showing an example of dividing a screen to explain the Qi method, and the image is divided into partial images B, C, L), E, F゛, and G.

1-1, l, J, K, L, %t
. 80 shows an enlarged view of one of the partial stone statues divided in Fig. 2. First, the eyes are pixels.x(i,
J) indicates each voltage value of a pixel of one partial image. Here 1=-2,-1゜0.1,2; j=-2,-1,0,
1,2.

The conventional adaptive DP CM method is
ffl:<n's'9, the song 1 is split into multiple pieces, and each dog image is independently predicted with a different prediction f; 5 number t;% 'a! It was meant to be given and transmitted.

However, in the above method, the DPCP to be paid
Since the quantization level of the CO2 minute data is related to the whole image A, there is a problem that overload noise is likely to occur, and since the initial value data is related to the whole image A, there is a problem that a certain partial image However, there is a problem in that error propagation is likely to occur, in which an error in transmitted data that occurs affects other partial images.

OBJECTS OF THE INVENTION It is an object of the present invention to provide an image differential pulse board modulation method that is resistant to overload noise (and less prone to error propagation). The code modulation method divides the image to be transmitted into partial images of the number of cells (II! , the quantity P is converted to the value of B and the number of quantization levels, and the first *'A +n data is U'72 by the difference pulse code Sj KJ. Since the number of quantization levels and the number of quantization levels can be made different for each divided partial image, overload i1 sound is less likely to occur. Since it can be made different, it has the effect that error propagation is less likely to occur.

DESCRIPTION OF EMBODIMENTS An embodiment of the present invention will be described below with reference to FIG. 2 and FIG. 8I71. FIG. 2 is an image diagram showing an example of one division of an image, and the squares in the diagram indicate divided partial images. FIG. 8 is an enlarged view of the partial image divided in FIG. 2, and the squares in the figure represent pixels.

The entire image A is divided into 4×4 partial images as shown in FIG. Each of the divided parts is transmitted independently by DPCM, and the method of transmission will be explained with reference to FIG.

The initial value data of DPCM is X (0, 2), x (0, -1), X (0, 0)
1), x (0, 2), x (-2, 0) x (-1, 0),
It is assumed that there are nine pixels x(1,0) and x(2,0).

Let DPCM prediction coefficients be C(-1, 0), C(-1, -1), and C(0, -1).

Let e(k, t) be the differential data to be transmitted corresponding to x(ic, 1). Here, k=-2, -1, 1, 2,; t=-2
.

-1, 1, 2.

However, e(1,1), e(1,2), e(2111F
For e(2,2), e(k, A)=x(k,j') -C(-1,0)X(k-1,7) -c(-1,-1)x(k -1,l-1)-c(0,-
1) Let x(k,!-1) be. Here, k=1.2; j'=1,2.

e(-t, 1Le(-l+2), e(-2,i), e
For (-2°2), e(k,))=x (k,)) -c (-1, O)x(k+1,l)-C(-1,
-1)X(k+1.j-1)-c(0,-1)x(k,
7-1). Here, k=-2,1; k=t,2.

e(x, -t), e(1, -2), e(L-ILe(2
, -2), e(k,l/)=x(k,ri-c(-1,0)x(k-1,1> -c(-1,-1)x(k-1, l+1 )-c(0
, -1)x(k, l+1). Here, =1, 2; 1 = -1, -2.

e(-1,-1), e(-1,-2)Ie(-2,-1
), for e(-2°-2), e(kJ)=x(k,l) -c(-1,O)x(k+1.1) -c(-1,-1)x(k+1, !-44)-c(0
, -1)x(k, l+1). Here, =-1, -2; 7=-1, -2.

For the difference data e(k, l), the value of the fostering level and the number of quantization levels are selected so that the fostering error of this divided image or its average power falls within a certain range, and the prediction coefficient c(- 1,0), c(-1,-1),.

c (0, -1), the value of the quantization level, the number of quantization levels, and the DPCM (7) initial value data X (0, -2),
(0゜1)px('p O),x('+')px(0
*”)px(-2r”rx(-1,0),x(1,0)
, x(2,0) are transmitted together.

As described above, according to this embodiment, an image is divided, and the optimized prediction coefficient, the value and number of quantization levels, and the initial value are set for each divided image. is transmitted, reducing overload and error propagation.

Effects of the Invention As is clear from the above description, the present invention is a method of dividing an image into partial images and transmitting the divided images using DPCfvi, each of which has independent parameters, which prevents error propagation and overload. An excellent effect is obtained in that noise is less likely to occur. As a result, high-quality images can be transmitted using a smaller amount of information.

[Brief explanation of drawings]

Fig. 1 is an image diagram showing an example of dividing a screen in the adaptive DPCM method by image division, and Fig. 2 is an image diagram showing an example of dividing an image. FIG. 8 is an enlarged view of the partial image divided in FIG. 2, and the squares in the figure represent pixels. Agent Yoshihiro MorimotoFigure 3

Claims (1)

[Claims] 1. When transmitting an image, the image to be transmitted is divided into multiple partial images, and each divided partial image is independently assigned different prediction coefficients, quantization levels, number of quantization levels, and initial values. A differential pulse code modulation method for transmitting an image by differential pulse code modulation with data.