RU2073882C1 - Two-channel device for statistic processing - Google Patents

Abstract

FIELD: radars. SUBSTANCE: device has delay generators 2 and 3 for first and second channels, duration strobe generator 5, circuit 6 which compares strobe signals to signals from receiver. In addition device has accumulating unit 10, which is located device output, and OR gate 4, which inputs are connected to outputs of delay generators for both channels and which output is connected to input of duration strobe generator 5. In addition device has pulse expander 7, which output is connected to selection circuits 8 and 9 for first and second channels. Selection circuits are connected to input of accumulating unit 10. Output of duration strobe generator 5 is connected to second input of circuit 6 which compares strobe signals to signals from receiver. Output of this circuit is connected to input of pulse expander 7. EFFECT: increased functional capabilities. 1 dwg

Description

 The invention relates to the field of radar and, in particular, can be used in a system for statistical processing of radar information, for example, in a radar meter for height or range.

Known are two-channel systems for statistical processing of radar signals, containing shaper of delayed strobe pulses, matching schemes of the signal of the radio receiving device with gates, storage devices, which are characterized by stringent requirements for the probability of false signal detection [1] and [2]
A disadvantage of the known two-channel processing systems is the impossibility of obtaining channels identical in parameters, which leads to a decrease in the noise immunity of the processing systems.

Closest to the invention is a two-channel system for statistical processing of a radar signal, comprising a signal strobe generator, a control strobe generator, each of which contains a delay shaper and a strobe duration shaper, signal and interference input from the receiver, gate coincidence patterns with the receiver signals in each channel , the outputs of both channels are connected to a storage device [3]
Isolation of the signal in interference is based on the inequality of probability of coincidence of the signal with the signal strobe and interference with the control strobe. In the absence of a signal, the probability of coincidence of interference with the signal and control gates should be the same, which is possible only with the complete identity of the channels.

 Violation of the identity of the channels leads to instability of the probability of a false alarm of the processing system.

 The disadvantage of this two-channel processing system is the dependence of the instability of the probability of false alarm and the probability of proper detection of the signal on the degree of identity of the two parallel channels.

 The purpose of the invention is to stabilize the probability of false alarm and increase the likelihood of correct detection by increasing the degree of channel identity.

 This goal is achieved by the fact that in the two-channel system for statistical processing of radar information, containing delay formers of the first and second channels, the duration of the strobe generator, the coincidence circuit of the strobe with the signals of the receiving device, as well as the storage device installed at the output of the system, an additional OR element is introduced, inputs which is connected to the outputs of the delay formers of both channels, and the output is connected to the input of the formers of the strobes in duration and the expander impu of breeding channels with the selection circuits of the first and second channels connected to its output (connected to the input of the storage device), and the output of the gate driver for duration is connected to the second input of the coincidence circuit of the gates with the signals of the receiving device, the output of which is connected to the input of the pulse expander.

 The drawing shows a structural electrical diagram of a two-channel system for statistical processing of radar signals. It contains an input of signals from the receiving device 1, the delay driver of the first channel 2; shaper of the delay of the second channel 3, the OR circuit 4, the strobe generator for duration 5, the coincidence circuit 6, the pulse expander 7, the selection circuit of the first channel 8, the selection circuit of the second channel 9, storage device 10.

 The scheme works as follows.

 Delay formers 2 and 3 form delayed pulses that determine the gating times of each channel. The delayed pulses are transmitted through the OR 4 circuit to the gate forming circuit 5, common to both channels. The signals arriving at input 1 from the receiving device coincide in each sequence with the gates on the common coincidence circuit 6, and the coincidence signals are expanded by a common pulse expander 7.

 The pulse width of the expander should be sufficient so that the difference in the inertial properties of the two inputs of the drive does not affect, but not more than the time interval between the gates of the first and second channels.

 Extended pulse signals are fed to the first inputs of the selection circuits of the first channel 8 and the second channel 9. A pulse from the delay driver circuit 2 is received at the second input of the selection circuit 8, and a pulse from the delay driver circuit 3 is fed to the second input of the selection circuit 9. on selection schemes 8 and 9, the results of matching the signals of the receiving device with the gates of the first and second channels are selected. From the output of the selection circuits of the first and second channels, the pulses arrive at the storage device 10.

 Since the gate generator 5, the coincidence circuit 6 and the pulse expander 7 are common to both channels, both gates have the same duration and the instability of the duration of the gates does not affect the identity of the channels. The non-identity of the first and second channels is also excluded due to the different sensitivity of the matching circuits and due to the different inertial properties of these circuits.

 The non-identity of the channels associated with the different inertia of the drive inputs is also absent, because These inputs receive, after passing through the selection circuits 8, 9, pulses extended in duration by the expander 7. At the other inputs of the selection circuits 8 and 9, pulses are determined that are determined by amplitude, duration, and temporary position.

 Thus, in comparison with the known, the proposed two-channel system for statistical processing of the radar signal increases the stability of the probability of false alarm and increases the likelihood of correct detection by increasing the identity of the channels.

Claims (1)

 A two-channel system for statistical processing of radar information, containing delay formers of the first and second channels, a duration strobe generator, a strobe matching scheme with the signals of the receiving device, and a storage device installed at the system output, characterized in that the OR element is additionally inserted, the inputs of which are connected to the outputs of the delay drivers of both channels, and the output is connected to the input of the driver of the strobe in duration, and the pulse expander is connected to its output, by selection circuits of the first and second channels connected to the input of the storage device, the output of the gate driver in duration connected to the second input of the matching circuit of the strobe with the signals of the receiving device, the output of which is connected to the output of the pulse expander.