SU1056455A1 - Differential pulse coder of television signal - Google Patents

Abstract

A DIFFERENTIAL IMPULSE TELEVISION SIGNAL CODER, containing serially connected analog-to-digital converter, memory block, multiplier unit, first adder, inverter and second adder, as well as a quantizer, the output of which is connected to the input of the coding unit, which is different reduce redundancy without compromising the visual quality of the decoded television image, a module adder is entered into it, the input of which is connected to the output of the second adder, and the output is connected to the input of quanta bodies, wherein the second input of the second adder connected to the output memory block, a second output of the first sum matorv - a second input of the quantizer. sl 05 4 ate

Description

The invention relates to the industry of communications equipment and can be used in the construction of digital signal transmission systems for television (TV) programs of redundancy reduction programs without compromising the visual quality of the decorative image. The most significant redundancy reduction is achieved in coders that implement the differential pulse code modulation (DPCM) TV signal and allow reducing redundancy when transmitting images of broadcast television compared to coders implementing the impulse code modulation method (PCM). A differential pulse breaker is known that contains in series an analog-to-digital converter (A1Sh), a first adder and a quantifier, the output of which is through a multiplier, a second adder, and a memory block connected to the second input of the first summer Cl 3. The redundancy reduction in this device is achieved by reducing the number of quantization levels when the prediction error signal is nonlinearly converted in the quantizer. However, the efficiency of such a codera is relatively small, since the prediction is conducted one by one and is not sufficiently adaptive, since the quantization scale in the quantizer is fixed. The closest in technical essence is a differential pulse coder that contains serially connected ADCs, a memory unit, a multiplier unit, a first adder, an inverter, a second adder, a quantizer, and a coding unit, with the LIP output connected to the second input of the second adder 21. the quantization is not fixed, and the level satisfaction is determined by the luminance value of the predicted element, which is achieved by the scheme of the quantizer itself. The reduction of redundancy in the known device as compared to the PCM device is based on the fact that the number of equal levels of the prediction error signal for each sample of the TV signal is chosen in the quantizer less than the number of levels of quantization in the PCM. It is possible, within certain limits, to express it without a noticeable deterioration in the image quality for the viewer due to the limited visual perception of sharp transcripts of 1 552 lads and small details and a sliding quanto-scale. However, the known device encodes the prediction error signal separately for each sample, and this significantly limits the possibilities for reducing redundancy. The number of binary units (bits) per element of the image being encoded is still large enough. In this device, only for the luminance component, it is 4 bits / element. In order to reduce the number stream to 34,368 Mbit / s, which corresponds to the capacity of the tertiary channel of the Unified Automated Communication System (EASC), in the considered device it was necessary to reduce the number of samples on the active part of the line to 462, i.e. almost twice as much as the standard value, and also takes more than 4acTJj of the time that comes to the blanking signal to transfer images. The purpose of the invention is to reduce redundancy without compromising the visual quality of the decoded TV picture. The goal is achieved by the fact that a module adder is entered into a differential pulse coder containing serially connected analog-digital converter, memory unit, multiplier unit, first adder, inverter and second adder, and quantizer outputted coding). whose input is connected to the output of the second sum of the torus, and the output is connected to the input of the quantizer, the second input of the second SumTopia is connected to the output of the memory unit, and the second output of the first adder is connected to the VT01EYM quantizer. The drawing shows a structural electrical circuit of a differential pulse coder. The device contains ADC 1, memory block 2, multiplier block 3, first adder 4, inverter 5, second adder 6 ,. the second adder 7 is a sweater, a quantum number 8, and a 9-kd block. The device works as follows. . In ADC 1, the original analog signal is converted into a digital stream, for example, by the PCM method, which is characterized by considerable psycho-physiological redundancy. In block 2 of the memory, due to delays in the digital stream, pn digital streams are created, each of which corresponds to one of the elements of

Claims (1)

DIFFERENTIAL IM · "PULSE TV ENCODER, containing an analog-to-digital converter, a memory unit, a multiplier unit, a first adder, an inverter and a second adder, as well as a quantizer, the output of which is connected to the input of the encoding unit, characterized in that, for the purpose reducing redundancy without compromising the visual quality of the decoded television image, an adder of modules is inserted into it, the input of which is connected to the output of the second adder, and the output is connected to the input la, wherein the second input of the second adder connected to the output of the storage unit, and the second output of the first adder - a second input of the quantizer with Οι sm sl sl 1 1056455