Automated control systems

Efficiency conditions for hill-climbing control of continuous industrial processes

M. V. Levin, M. Ya. Fiterman

Leningrad

Abstract: An industrial process whose mathematical model may be reduced to a sequential connection of a linear dynamic and a quadratic static elements is to be controlled by a two-level hill-climbing system. Under certain conditions the hill climbing is found to be less efficient than stabilization of an a priori optimum even with complete prior data on the process and random perturbations. This condition is formulated as a relationship between the process parameters, perturbations, and measurement noise.

UDC: 62-506:65.015.13


Received: 24.02.1988

 English version: Automation and Remote Control, 1989, 50:7, 993–999

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