SU888139A2 - Analogue device for solving problems of sheduling theory - Google Patents

Description

one

The invention relates to electronic modeling and can be used to solve problems of the theory of conveyor-type schedules, in particular, to optimize the processing schedule of parts and parts on PA machines, as well as for operational production planning on conveyor and assembly lines when developing specialized analog and analog-digital machines. for ACS.

According to the main author. St. No 690505, an analog device is known for solving scheduling theory problems pi. containing two maximum selection units whose inputs are device inputs, a memory unit, a switch and a comparison unit whose inputs are connected to the outputs of the maximum selection units, the output of the comparison unit is connected via a switch to the memory unit whose output is the device output.

The known device is intended for solving scheduling theory problems, which consist in minimizing the maximum processing time in conveyor systems of two or three machines.

A disadvantage of the known device is the limitation of its use by the tasks of two or three machines.

ten

The aim of the invention is to expand the functionality of the device to solve the general problem of a conveyor type.

The goal is achieved by

ts that a group of adders, the outputs of which are connected to the inputs of the first maximum selection block, are entered into the analog device for solving scheduling theory problems, and the inputs are connected to the corresponding buses of a constant voltage source.

Claims (1)

The drawing shows a block diagram of the proposed device. The device for solving scheduling theory problems consists of a maximum selection unit 1.2, a comparison unit 3, a switch 4, a storage unit 5 and a summation unit 6. Each maximum selection block contains Y resistors 7.-7y, h contacts 8.-8у) H relay 9.-9y. and / separators, resistors 11–11 m, and diodes 13. Block 6 contains VI amplifiers 14L-14U and Vl21 resistors 1. – 1 5 6 –16yj, constant voltage source 17. The idea of the method consists in ordering the priority of parts with the greatest difference between the total processing time on K of the last machines and K of the first. Before the solution, the numbers Ou and y are determined, which determine the number of nodes of the device. Using the first K resistors of block 6, positive voltages are set, proportional to the processing times of the corresponding part on the first K machines, and with the last K resistors on the last. With the help of resistors 7, block 1 establishes a sufficiently large positive voltage to provide a positive input voltage at the inputs of the amplifiers,. When power is applied, the output of each amplifier of block 6 is set to a voltage proportional to the algebraic sum of the processing duration of the corresponding part. At 9. 4, the output of block 1, and, therefore, at the first input of lock 3, a voltage proportional in amplitude to the maximum of these sums is established. No voltage is applied to the power bus of unit 2. Consequently, at the second input of block 3, there is no signal and the order of processing children is selected only by the output of block 1, based on the order of the values of C, when u1xTs7 tal F Thus, by introducing an additional block, the functionality of the device has expanded. Analog device for solving the problems of scheduling theory according to the main author, sv. No. 690505, characterized in that, in order to extend the functionality by viewing the constraints on the dimension of the problems to be solved; it contains a group of adders, the outputs of which are connected to the inputs of the first maximum selection block, and the inputs are connected to the corresponding buses of a constant voltage source. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 690505, cl. G 06 G 7/22, 1977 (prototype).