Abstract

The peculiarity of the present stage of development of the production is the need to control and regulate a large number of process parameters, the mutual influence on each other that when using single-circuit systems significantly reduces the quality of the transition process, resulting in significant costs of raw materials and energy, reduce the quality of the products. Using a stand-alone digital control system eliminates the correlation of technological parameters, to give the system the desired dynamic and static properties, improve the quality of regulation. However, the complexity of the configuration and implementation of procedures (modeling) compensators autonomous systems of this type, associated with the need to perform a significant amount of complex analytic transformation significantly limit the scope of their application. In this regard, the approach based on the decompo sition proposed methods of calculation and simulation (realization), consisting in submitting elements autonomous control part digital control system in a series parallel connection. The above theoretical study carried out in a general way for any dimension systems. The results of computational experiments, obtained during the simulation of the four autonomous control systems, comparative analysis and conclusions on the effectiveness of the use of each of the methods. The results obtained can be used in the development of multi-dimensional process control systems.

Highlights

  • other that when using single-circuit systems significantly reduces the quality of the transition process

  • Using a stand-alone digital control system eliminates the correlation of technological parameters

  • with the need to perform a significant amount of complex analytic transformation significantly limit the scope of their application

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Summary

Research methods of simulate digital compensators and autonomous control systems

1 information and control systems department, Voronezh state university of engineering technologies, Revolution Av., 19 Voronezh, 394036, Russia 2 informations security department, Voronezh state university of engineering technologies, Revolution Av., 19 Voronezh, 394036, Russia. The complexity of the configuration and implementation of procedures (modeling) compensators autonomous systems of this type, associated with the need to perform a significant amount of complex analytic transformation significantly limit the scope of their application In this regard, the approach based on the decompo sition proposed methods of calculation and simulation (realization), consisting in submitting elements autonomous control part digital control system in a series parallel connection. Перекрестные каналы, определяющие взаимосвязь технологических параметров с другими регулирующими воздействиями, приводят к нежелательному отклонению параметра от заданного значения (появлению ошибки регулирования), выступая в качестве дополнительных возмущающих воздействий. Использование цифровых связанных систем регулирования (ЦССР), характеризующихся наличием внешних компенсирующих связей (компенсаторов) между регуляторами, обеспечивает частичную или полную автономность регулируемых параметров, позволяет повысить качество регулирования и придать системе определенные желаемые свойства [1]. Теоретической основой одного из способов является принцип автономности, позволяющий обеспечить независимое друг от друга регулирование связанных параметров [3]

Постановка задачи
Разработка метода расчета
Канал Channal

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