SU647698A1 - Neuron-simulating device - Google Patents

Description

The invention relates to the field of analog modeling and can be used in the study of neurons and neural structures.

A device for simulating a neuron {1 |, containing an adder, sources of input pulses, functional converters, is known.

A disadvantage of this device is its complexity and low accuracy.

The closest to the technical essence of the invention is a device 2, containing sources of input pulses, an adder, the output of which 4 € fpe3 serially connected comparison circuit and a voltage-to-frequency converter are connected to an output pulse driver unit. A disadvantage of this device is its relatively low accuracy.

The aim of the invention is to improve the accuracy of the simulation.

This is achieved by the fact that in the proposed device for modeling a neuron, frequency converters are introduced into the voltage, the inputs of which are connected to the corresponding outputs of the sources of the input pulses, and the outputs are connected to the corresponding inputs of the adder

In addition, frequency converters to voltages can be made in the form of serially connected multivibrators, integrators, and matching elements.

The structural scheme of the described device for modeling a neuron is shown in the drawing.

The device contains sources of input pulses I, an adder 2, the output of which through serially connected comparison circuit 3 and voltage-frequency converter 4 is connected to block 5 of the output pulse generator, frequency to voltage converters 6, containing 1Not successively connected multivibrator1-7, integrator 8 and . matching element 9, exciting and inhibiting inputs 10, 11..

The device works as follows. The input of the Converter 6 receives a sequence of input pulses with a frequency f. Multivibrator 7 standardizes the input pulses in shape, duration of amplitude, after which transform occurs. the frequency of input pulses in on

3

in the integrator 8, which through the matching element 9 enters the adder. 2. As matching elements 9, source followers are used for the previous transistor ji. In the circuit, envisioning and adjusting. Each of the inputs is not on. output voltage of the adder. In adder 2, the excitation and the braking voltage of the voltages and the amplification of the differential voltage are subtracted. The output voltage of the adder 2 through a comparison circuit 3 controls the frequency of the voltage-to-frequency converter 4, which is a controlled self-oscillating multivibrator. The comparison circuit 3 contains a source, a voltage reference, specifying the lower excitation threshold. From the moment of equalization of the legs of the terminal and the voltage at the output of the adder 2, the latter is fed to the converter 4. Then the pulses with a frequency proportional to the voltage control are fed to the block 5 of the output pulse driver ..

Introducing an additional frequency converter into the device due to the voltage allowed to significantly improve the accuracy of the simulation.

647698

Claims (2)

Invention Formula . A device for simulating a neuron containing sources of input pulses, an adder, the output of which is connected via a sequentially connected comparison circuit and a voltage-to-frequency converter to an output pulse driver unit, characterized in that, in order to improve the accuracy of modeling, frequency converters are introduced into it inputs, whose inputs are connected to the corresponding outputs of the input pulse sources, and the outputs are connected to the corresponding inputs of the adder. 2. A device according to claim 1, characterized in that the frequency-to-voltage converters are made in the form of a series-connected multivibrator, an integrator and a matching element. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 474822, M.cl. G 06 G 7/60, ig75. 2. USSR author's certificate No. 452016, M.kl. G 06 G 7/60, 1975.