SU739614A1 - Device for reducing redundancy of digital signals - Google Patents

Description

The invention relates to telemetry and can be used in various systems and devices where information is compressed.

Known devices for reducing ⁵ redundancy information containing an input block, an arithmetic block, a comparison block, a buffer storage unit, registration blocks [Ϊ]. The device is structurally complex and has low resistance.

The closest to the invention in the technical, essentially a ustroy- GUSTs ₁₅ for reducing redundancy of the discrete signal, comprising: a comparing unit, a register substantial otschetdv, dial approximation accuracy, a key element whose output is connected to the output device [2]. The device has a relatively low noise immunity from the effects of pulsed interference.

The aim of the invention is to increase the noise immunity to impulse noise.

This goal is achieved by the fact that the device enters the current count register, the previous count register, the control trigger and the allowable temperature controller, the information input of the device is connected to the first input, the current count register, the outputs of which are connected respectively to the first input of the comparison unit and the first input of the previous register reference, the first output connected to the second input of the comparison unit, the third, fourth and fifth inputs of the comparison unit are connected respectively with the outputs of the setpoint permissible perature and the setpoint accuracy of the approximation and yield significant readings register, the first input of which is combined with the first control input of the flip-flop and is connected to the first output of the comparator, the second output of the comparator is connected to

7396 by the second input of the register of the previous sample and the first input of the key element, the second input of which is combined with the second input of the register of significant samples and connected to the second output _{s of the} register of the previous sample, the input clock of the device is connected to the second inputs of the register of the current sample and the control trigger, the outputs of which are connected to the inputs of the setter are up to 10 permissible temperatures and the setter of approximation accuracy.

The drawing shows a structural diagram of the proposed device.

The apparatus 1 comprises a register 15 teku- present frame, the register 2 of the preceding frame, a comparison unit 3, trigger.upravleniya 4, a register 5 of significant samples dial permissible aperture 6, the accuracy of approximation dial 7, a key ²⁰ howling element 8.

In the comparison unit, the measurements received at its input are processed on the basis of the sequence of solutions by the following inequality ²⁵ (k

- (2) where X-value characterizing θ ₃ The relative deviation of the current measurement values from the previous one;

- a value characterizing the permissible change in the current measurement but in relation to the previous ₃₅ ;

is the value characterizing ‘; deviation of the previous measurement from the material;

ξ. is a value specifying an accuracy of ₄₀ approximations.

The device operates as follows.

A synchronizing pulse and the current measurement — ₄₅ measurement — are written to the device’s inputs, which is recorded in register 1. In this case, the previous measurement previously recorded in register 1 is transferred to register 2 under the influence of a clock pulse, and control trigger 4 of the same sync- ₅₀ clock pulse is reset in which the setters 6 and 7 form a program block, the allowable aperture setter 6 is open, and the approximation accuracy setter 7 is closed. ss

In comparison block 3, the contents of registers 1 and 2 are compared for the fulfillment of inequality (1). At

Failure to comply with inequality (1), the previous measurement is taken as impulse noise and is not received for further processing. On the first block output. comparison, there is no signal extraction, trigger 4 control also does not occur, as a result, repeated comparison for the fulfillment of inequality (2) is not performed.

When inequality (1) is fulfilled, at the first output of the comparison block, an impulse is emitted which is supplied to the trigger up-, equation 4 and register 5 by a significant count. Trigger 4 opens the setter 7 and closes the setter 6 .. From register 5, this pulse reads the measurement, which is sent to the comparison unit 3. In the comparison unit, the contents of registers 2 and 5 are compared for the fulfillment of Inequality (2). When inequality (2) is satisfied, the signal is not extracted at the second output of the comparison block. Key element 8 will be closed, nothing will appear at the output of the device, i.e. the measurement located in register 2 is recorded as redundant.

If inequality (.2) is not fulfilled (the measurement stored in register 2 is fixed as significant), a signal appears on the second output of the comparison unit, which reads the essential measurement from register 2 and opens the key element 8. The essential measurement appears at the output of the device and is simultaneously recorded in register 5 as essential for solving inequality (2) upon receipt of subsequent measurements.

With the advent of a new current measurement under the action of the trigger clock -. Ger 4, and therefore, the program block and the comparison block are set to the initial state, and the cycle of work is repeated.

By a similar principle, a multi-channel device for reducing redundancy can be built.

Claims (3)

The invention relates to telemetry and can be used in various systems and devices where data compression is performed. Devices for reducing redundancy of information are known, comprising an input unit, an arithmetic unit, a comparison unit, a buffer storage unit, and registration units L. The device is structurally difficult and has a low resistance. The closest to the invention in technical terms is a device for reducing the exclusion of a scaled signal, containing a comparison unit, a register of significant counts, an approximation accuracy setting device, a key element, the output of which is connected to the device output. 2. The device has a relatively low noise immunity from exposure to Schul interference. The aim of the invention is to improve noise immunity to impulse noise. The goal is achieved by the fact that the current count register, the previous count register, the control trigger and the setting unit of the permissible aperture are entered into the device, the device information input is connected to the first input, the current count register, whose outputs are connected to the first input of the comparison unit and the first, respectively. The first input of the previous count register, the first output connected to the second input of the comparator unit, the third, 1-fourth and fifth inputs of the comparator unit are connected respectively to the output of the sensors of the permissible aperture and the approximation accuracy setting unit and the output of the register of significant samples, whose first input is combined with the first trigger input control unit and connected to the first output of the comparison unit, the second output of the comparison unit is connected to the second input of the previous count register and the first input of the key element, the second input which is combined with the second input of the register of essential samples and connected to the second output of the previous count register, the input clock of the device is connected to the second inputs of the current count register and the control trigger, the outputs of which are connected to the inputs of the unit of permissible aperture and setter of the accuracy of approximation. The drawing shows a structural diagram of the proposed device. The device contains the current count register 1, the previous count register 2, the comparison block 3, trigger control 4, the register 5 essential counts, the predetermined aperture 6, for the approximation accuracy sensor 7, the key element 8. Measurement received at its input based on the following inequality, the value characterizing the deviation of the current measurement value from the previous one; - the value characterizing the permissible change in the current measurement relative to the previous one; X, is a characteristic value; previous measurement deviation from significant; - the value specifying the accuracy of the approximation. The device works as follows. The device receives a sync pulse and the current measurement, which is written into register 1. With 8TOM, the previous measurement previously recorded in register 1 under the influence of a clock pulse is rewritten into register 2, and control trigger 4 with the same clock pulse is reset to the initial position at which the setters 6 and 7 form a program block, the preamble of my aperture 6 is open, and the approximation accuracy preassign 7 is closed. In the comparison block 3, the contents of registers 1 and 2 are compared in order to fulfill the inequality (1). R7 44 failing to comply with inequality (1), the previous measurement is taken as impulse noise and is not received for further processing. At the first output of the blocks, no comparison of the signal occurs, the control of the trigger 4 also occurs; as a result, a repeated comparison is not performed for the inequality (2). When inequality (1) is fulfilled, a pulse is output at the first output of the comparison unit, which is applied to the trigger of control 4 and the register 5, which are essential countdowns. Trigger 4 opens gauge 7 and closes gauge b. From register 5, this pulse reads the measurement, which is fed to the comparison unit. 3. In the comparison block, the contents of registers 2 and 5 are compared for the implementation of Inequality (2). If inequality (2) is fulfilled at the second output of the comparison block, no signal is extracted. Key element 8 will be closed, nothing appears at the output of the device, i.e. the measurement in register 2 is fixed as redundant. If the inequality (.2) is not fulfilled (the measurement stored in register 2 is fixed as essential), a signal appears at the second output of the comparator unit, which reads a significant measurement from the pbgr 2 and opens the key element 8. The significant measurement appears at the output The device is simultaneously recorded in hTpp5 as essential for resolving inequality (2) upon receipt of subsequent measurements. With the arrival of a new current measurement, under the action of a sync pulse, a trigger, a ger 4, and, therefore, a program block and a comparison block are reset, and the cycle of operation is repeated. By the same principle, a multi-channel redundancy device can be built. A device for reducing redundancy of discrete signals containing a comparison unit, perHcfp essential samples, an approximation accuracy preset, a key element whose output is connected to the output of the device, and