SU1056223A1 - Device for simulating radial network - Google Patents

Abstract

DEVICE FOR MODELING-. RADIAL NETWORK, containing models of network vertices, made in the form of i signal receivers, distinguished by the fact that, for the purpose of higher / NIN accuracy, it additionally contains a network center model, made in the form of a signal sensor, a group of modeling blocks distances between network elements made as a group of time interval measurement blocks, a group of multipliers, an adder, a registration block and a start-up pulse generator, the output of the start-up pulse generator connected to the trigger input of the signal sensor and to the outlets of the group of time interval measurement blocks, the second inputs of which are connected to the outputs of the corresponding signal receivers, the outputs of the group of time interval measurement blocks are connected to the first inputs of the corresponding multiplication units of the group whose outputs are connected to the corresponding input of the adder whose output is connected to (O; block input registrations, the second inputs of the multiplication unit group are the corresponding installation inputs of the device.

Description

The invention relates to electronic modeling devices for radial networks, and can be used in solving applied problems of determining the location of a network center.

A known method for optimizing the placement of the center of the radial network consists in determining the equilibrium point of the system of forces acting in radial directions relative to the center of fl.

This method is characterized by low accuracy, which is caused by losses on the tray when balancing the system of forces,

The closest to the invention according to the technical essence is a method of modeling tasks. The optimal location of the network center is as follows. At the locations of the specified points, the supporting elements are installed and the flexible element fixed on one of the supporting elements or pointer is separated by repeatedly bending the supporting elements and the pointer in accordance with the specified coefficients, then the pointer is placed at an arbitrary point, the flexible tension is applied. the element along the length of the flexible element from the point of its fixation to the last in the order of bending of the supporting element or pointer is judged on the value of the objective function.

The known solution allows for I given the location of the center to determine the sum of arbitrary distances along the radial links from the center of the 2J network.

However, the accuracy of the known method is limited by the errors in finding the total length of the flexible element capable of stretching during its tension. Significant impact. In addition, the errors associated with the additional expenditure of the flexible element on the rounding of the support elements of finite dimensions are introduced.

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

The goal is achieved. In the device for modeling a radial network containing vertex models made in the form of signal receivers, a network center model is introduced, made in the form of a signal sensor, a group of distance modeling blocks in the network elements made as a group of time interval measurement blocks, a group multiplying units, an aggregator, a registration unit and a trigger pulse generator, the trigger pulse generator output being connected to the trigger input of the sensor and the first inputs of the group of measuring blocks x intervals, the second inputs of which are connected to the outputs of the respective signal receivers, the outputs of the group of time measurement blocks are connected by the first inputs of the corresponding multiplication banks, the outputs of which are connected to the corresponding input of the adder, the output of which is connected to the input of the registration block, the second inputs of the group of multiplication blocks The respective installation inputs of the device.

The drawing shows a diagram of the device.

The device contains located in space the model of the network center sensor 1 signals, vertex models made in the idea of receivers 2 signals, a group of blocks for modeling the distance between network elements made in the form of blocks 3 measuring time intervals, a group of blocks 4 multiplying, adder 5, block b registration, generator 7 start pulse.

The device works as follows.

The sensor 1 of the signal and the receivers 2 are arranged in space (on the plane) in accordance with the points where the center and the vertices of the given radial network are located.

The source of sensor 1 is energized by generator 7. A radiation pulse from sensor 1 propagates in the medium in all directions, including the directions formed by interconnections of a given network. Synchronously with the appearance of a radiation pulse, an electric pulse from the generator 7 is supplied to the first inputs of the blocks 3, and they are started up.

The radiation pulse, propagating in space, reaches the points where the receivers 2 are located at intervals of time η determined by the flux path from sensor 1.

As the propagating radiation of receivers 2 located at a distance from sensor 1 reaches, the second inputs of the corresponding units 3 receive signals from the receivers completing the measurements of time intervals At. The current values of the time intervals and the set values of the weighting factors mi supplied to the second inputs of the blocks 4 are converted into proportional blocks 4 and the product of their electrical signals, which are then summed and stored in the adder. The results of the decision are recorded according to the indications of block b.

31056223

Thus, at the output of the adder. Thus, the proposed value is reduced to a value. A design as compared to the known introduction of new elements and

  , their connections are more accurate: C is the sum of the distances of the center of the network; it radiates the radio mix due to its i. vertices; that errors are excluded when

K - coefficient of proportionality, support. Support} {elements - - NUMBER of vertices. ..

Claims (1)

DEVICE FOR MODELING-. NII RADIAL NETWORK, containing models of network nodes made in the form of signal receivers, distinguished by the fact that, in order to increase I of accuracy, it additionally contains a model of the center of the network, made in the form of a signal sensor, a group of blocks for modeling distances between network elements made in the form of a group of blocks for measuring time intervals, a group of multiplication blocks, an adder, a registration unit and a trigger pulse generator, and the generator output trigger pulses is connected to the trigger input of the signal sensor and to the first inputs of the group of time interval measurement blocks, the second inputs of which are connected to the outputs of the respective signal receivers, the outputs of the group of time interval measurement blocks are connected to the first inputs of the corresponding group multiplication blocks, the outputs of which are connected to the corresponding input of the adder, the output of which is connected to the input of the registration unit, the second inputs of the group of multiplication blocks are the corresponding installation inputs of the device. TOP g