SU920753A2 - Device for selection of optimum solutions - Google Patents

Description

The invention relates to computing technology and may find application in the development of automated control systems, such as measuring and metering systems for a mass of charge materials in metallurgy. According to the main author. St. No. 549815, a device for selecting optimal solutions is known, comprising sensor blocks of an assessed situation, first level generalization blocks, weighting factors setting blocks, parameters importance sensors, second level generalizing block, memory block, comparison circuit of estimated variants of decisions, In addition, the prohibition unit and the execution unit 1. The known device allows to choose the optimal solution from a number of alternatives based on the assessment of the initial situation existing at the moment of decision making, by simulating in time the development of the initial situation as a result of this decision. The device is used to control Markov processes, in which the law of distribution of the ordinate of the process at any future moment depends only on the value of the ordinate at the moment and does not depend on what ordinates the random function had in the past. The disadvantage of the device is the lack of the possibility of choosing the optimal solutions to study not only the initial situation that exists at the moment t of the decision, but also the situation that existed at the time of the i-ul previous decision,. which reduces the accuracy of the decisions made when controlling non-Markov processes for which the autocorrelation function K (ut) is zero. The purpose of the invention is to improve the accuracy of optimal solutions. The goal is achieved by the fact that in a device for selecting optimal solutions containing a sensor block of estimated sichualia, the outputs are connected to the inputs of the first level units, the first outputs of which are connected to the first weights of the weights setting, the second inputs of which are connected to the outputs of the sensors the weighting factors are connected to the inputs of the second level generalization block, the first of which is connected to the memory block input, the output of which is connected En with the first input of the comparison block: the second input of which is connected to the second output of the second level generalization block, the first output of the comparison block is connected to the input of the after-effects assessment unit, the group of inputs of which is connected to the outputs of the generalization blocks of the first level, the second output of the block Comparison connected to the first input of the block ban. The output of which is connected to the input of the execution unit, an additional block of a common first level, an additional block for setting weighting factors, an additional parameter importance and a delay block, whose input is connected to the third output of the second block of the general level, are entered, and the output is connected to the input of an additional block of generalization the first level, the output of which is connected to the first input of the additional block of installation of weighting coefficients, the second input of which is connected to the output of the additional sensor of the importance of steam Etra, and an output connected to one input of block generalizing vto1rogo layer. The drawing shows a block diagram of the device. The device contains a block 1 of the estimated DUs, presently, blocks 2. generalization of the first level, blocks 3 for setting weighting factors, sensors 4 for the importance of parameters, block 5 for generalizing the second level, block 6 for memory, circuit 7 for comparing the evaluated variants decisions, evaluation unit 8; when decisions are taken; prohibition block 9, execution unit 10, delay unit 11, additional unit 12 of the first level, additional unit 13 for setting weighting factors, additional sensor 14 for the pair tra, synthesis of first unit 2 urs; n represents a storage unit 5 Synthesis of second level configured as a combiner unit 8 and SEQ otse11Ki Corollary received decision is made as a comparison with the interpolator circuit. The device is working: in a sleddish way, the situation at the moment t in the form of signals from block 1 of sensors of the estimated situation 1 is fed to the inputs of blocks 2 and 12 of the first level generalization, which give rise to the conditions of {generalized situations), the importance of the problem is set using blocks 3 and 13 and sensors 4 using blocks 3 and 14, Block 5 evaluates the solution variant. This evaluation of the solution variant is remembered in memory block 6 and is compared with other estimates using the comparison circuit 7 and appears on block 11 At the output of the comparison circuit, sigal is being developed, which corresponds to the assessment of the best option within the predetermined initial situation. In block 8, based on the assessment of the macro situation at time t and the found solution that came from the output of comparison circuit 7, the initial situation is extrapolated for a given time interval, and the situation is estimated above the initial one, from block 8 one of the inputs of prohibition block 9 is given an enable signal , and from the comparison circuit 7, the executive unit Yu receives a signal corresponding to the best solution within the predetermined initial situation at time i, taking into account the situation assessment at time t-iii and assessing the consequences of solution. Otherwise, a prohibitory signal is sent to the error from the inputs of block 9 from block 8 and the search for the best solution within the initial situation at the moment of time is continued, taking into account the assessment of the situation at the moment of time, t - q t, the device can be used in control systems devices united by a single technological hpofessom, for example, blending of bulk ferroalloys and additives in metallurgical production. In such systems, the device solves the problem of choosing the best (in terms of accuracy and productivity) variant of controlling the performance of individual metering devices: it will detect switching times to lower performance in order to improve accuracy up to {5th time and shutdown points of metering units taking into account the inertia of the feed path of charge materials . Also; wow: trio can

use the clips to solve other problems of oneparKBrforo managing complex dynamic systems,

The use of the device in an automated multicomponent dosing system for bulk components of the charge for converter steel production makes it possible to increase the productivity and accuracy of conversion and reduce the consumption of charge materials.

Claims (1)

Invention Formula The device for choosing the best solutions for autology, no. 549815, is due to the fact that, in order to improve the accuracy of optimal solutions, it contains an additional generalization unit of the first level, an additional unit for setting weights, an additional parameter importance sensor, and a tester unit, and the delay unit is connected to the third output of the second level generalization unit, and the output is connected to the input of the first level generalization unit, the output of which is connected to the first input of the survival unit AIAM Ko. effects, the second input of which is connected to the output of an additional parameter importance sensor, and the output is connected to one of the inputs of the second level generalization block, Sources of information taken into account in the examination 1, USSR Copyright Certificate No. 549815, class, q 06 q 7/122, 1977 (prototype).