SU599241A2 - Quantization level regulating arrangement - Google Patents

Description

one

The invention relates to radio engineering and can be used in radar stations designed to detect targets in the presence of a non-stationary background in range and azimuth.

From the main auth. No. 535740, a device for adjusting the quantization level is known, comprising a quantizer, a reversible counter and a converter code-voltage, the output of which is connected to the first input of the quantizer, the inverse output of the quantizer is connected to the subtracting input of the reversible counter, and the first synchronizer output is connected with the second input of the quantizer, between the outputs of the reversible counter and the inputs of the code-voltage converter, the memory block whose outputs are connected is turned on to the installation inputs of the reversible counter, and the second output of the synchronizer is connected to the memory unit, 1J.,

However, this device has a low speed, due to the autonomous regulation of the quantization level in each element of the resolution in range (in each ring

ti), which results in a nonstationary background in azimuth to large dynamic quantization errors.

The purpose of the invention is to increase the quantization accuracy.

For this purpose, in the device for quantizing level matching, containing I series-connected kaang

the tizator, the reversible counter and the code-voltage converter, the KOToiro output, are connected to the first input of the quantizer, and the inverse output of the quantizer is connected to the subtraction input through the recalculation circuit

first counter, and the first. the mash is connected to the second input of the quantizer, between the outputs of the reversible counter and the inputs of the converter

Claims (2)

the code-voltage is turned on the memory block whose outputs are connected to the installation inputs of the reversible counter, and the second synchronizer output is connected to the memory block, an interpolating filter and additional input quantizer are entered, the interpolating filter is connected between the outputs of the memory shift register registers and the first input of the additional quantizer, the second and third inputs of which are connected respectively to the second and third inputs of the "quantizer. The drawing shows a structural diagram of the proposed device. The device for adjusting the quantization level contains a series-connected quantizer 1, a reversible counter 2, and a code-voltage converter 3, the OUT of which is connected to the first input of the quantizer 1, and an inverse output. quantizer through recalculation circuit 4 is connected to the subtraction input of reversible 2, and the first output of synchronizer 5 is connected to the second input of quantizer, between the outputs of the reversible counter 2 and the inputs of the code-voltage converter 3, the memory block 6 is connected to the outputs of the installation inputs reversible counter 2, and the second output of the synchronizer 5 is connected to the memory block b, an interpolating filter and an additional quantizer 8, and the interpolating filter 7 is connected between the shift register outputs Ta 9 of memory 6 and the first the additional input of the quantizer 8, the second and third inputs of which are connected respectively to the second and third inputs of the quantizer 1, the device operates as follows. At the moment of time corresponding to the beginning of the first resolution element, the sync pulse arrives at the shift registers 9 of the memory block b. In this case, information is shifted in shift registers 9, in their last cells the number corresponding to the threshold level developed for the first resolution element for all previous periods of radar pulses is recorded. From the outputs of the shift registers 9, this number in the parallel binary code is fed to the inputs of the code-voltage converter 3 and the yciiaHOVA inputs of the reversible counter 2, and a new number is written to the reversible counter. At the output of converter code-voltage 3, a threshold voltage is applied to the first input of quantizer 1. During the first resolution element, the implementation of the input process is compared in a quantizer with a threshold level generated for a given radiation element during previous periods of radiation. Quantizer 1 has direct and inverse outputs. “Jari exceeded on the sampling interval of the input video-. the threshold level pulse of the standard amplitude and duration from the direct output of the quantizer is input to the addition of the reversible counter 2. If the threshold in the first sampling interval has not exceeded the threshold, then the pulse from the inverse output of the quantizer 1 is fed to the subtraction input of the reverse counter from the inverse output of the quantizer 1 2. As a result, a relief of quantiles of the distribution of the received non-stationary process is formed in the memory block b. In the next sampling interval, the device operation cycle is repeated. The threshold level supplied to the first input of the additional quantizer 8 is formed by the interpolating filter 7 using quantile estimates in both past and future with respect to the current radar resolution element. For this, the outputs N of the first and N of the last bits of the shift registers 9 are connected to the corresponding inputs of the interpolating filter 7, performed, for example, as an adder 10, to each of the inputs of which are connected a series-connected attenuator 11 and converter codepotential 12, and the output of the interpolating filter 7 is connected to the first input of the additional quantizer 8. Thus, the threshold level of the additional quantizer 8 is formed in the -th resolution element as a weighted sum of estimated 1 quantiles of two groups of elements s authorization (i-W, ..., i-i) H (Ml ,, .., i-tN). tmт.е. U, .A.i :. R: where11 dr | is the threshold level of the additional quantizer 8 in the i-th resolution element; yj is the quantized estimate of the distribution in the jth resolution element; Pj are weights with which the estimates of the quantiles of the distribution at the node (reference) points are summed up; A is the coefficient determined by the required quantization probability of the noise background by the additional quantizer 8 and the supported quantization probability Ruhr. By using the interpolating filter of the LAGANGE LINK interpolation filter and taking into account that the interpolation nodes are evenly spaced, the following values can be obtained weights - coefficients Pj; 1) (interpolation by a polynomial of the 5th degree). —.Y 2 -2 -2 T lP-rf 2) b (“2 (interpolation by a polynomial of the 3rd degree) –rii: d. 3) (interpolation by a polynomial of the 1st degree) P -p. H -1-2 The transmission coefficients of attenuators 11 are set equal to the weights of the RK and the transfer coefficient: the adder 10 to the A factor. The quantization rate of noise emissions .. Pe-L, supported in a multichannel controller, defined by the division ratio to the recalculated circuit 4. In the stationary mode of operation of the multichannel controller, in each discretization interval, equality is satisfied. p-jl. Y-reg .- | + i The most convenient is the value of Pt «.joc2. With such a value of Rile.g, the median of the distribution of input noise is monitored, so that with a non-stationary background in azimuth, approximately the same rate of transient processes is achieved both with decreasing and increasing with the intensity of the noise background. The number of bits M of the reversible counter 2 is determined by the required duration of the transition process in the device for adjusting the quantization level. With linear scanning of antenna patterns, the intensity of the reflections from the underlying surface varies in each sampling distance with a speed determined by the length of the packet of signals received from the target. For the number of bits of the reversible counter 2. "nauKu-2), the duration of the transient process during regulation is approximately four times smaller than the duration of the pack, i.e. in this case, accurate tracking of changes in the intensity of the noise background in azimuth is ensured. The proposed device makes it possible to almost completely eliminate the dynamic losses at a non-stationary background in terms of distance and azimuth. This is achieved by using lolynomial interpolating filters of the 3rd and 5th order. The losses in the threshold signal due to fluctuations of the quartet level with the number of bits of the reversible counter L (-4-J-5. Are only 0.8 - 0.5 dB.) Invention A device for adjusting the level of quantization according to auth. 535740, characterized in that, in order to increase the quantization accuracy, an interpolating filter and an additional quantizer are introduced into it, the interpolating filter being connected between the outputs of the shift registers of the memory block and the first input of the additional quantizer, the second and third inputs of which are connected respectively t.tvenno with the second and third inputs quantizer .Istochniki information Drin Tide into account in the examination:. 1. Copyright certificate USSR № 535740, cl Q 01 S 7/44, 1974..