Analytical Algorithms for Synthesis of Modal Controllers by the Maximum Stability Degree Criterion

Abstract 

The practice of synthesis the controllers demonstrates,
that for the determination of the dynamic tuning
parameters of the controller is more convenient to operate
with the analytical expressions with a low volume of calculations
that dependent on the known parameters of control
object. The analytical synthesis expressions, on the one hand
have the advantage of decreasing the volume of calculation
of tuning parameters (compared with the synthesis methods
and algorithms that include a number of steps) and, by the
other hand, using of the analytical expressions is a good alternative in case of the controllers with auto-tuning and adaptive control, where the controller retuning is done in function of the parameters variation of the control object during operation of the control system. Based on this consideration, in this paper it is proposed the analytical algorithms of synthesis the modal controllers, in form of algebraic expressions, for control objects with arbitrary order inertia and astatism by the maximum stability
degree criterion. This criterion offers to the designed control systems an aperiodic step response, high performance
and better robustness. The elaborated algorithms represent
simple analytical procedures with reduced volume of
calculation and without any imposing conditions to the
complexity of the control object. They allow also to impose
or to optimize the settling time of the designed automatic
control system.
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