Neurocontrolled object parameters adjustment by Ackermann’s formula usage
Date
2020-02-24
Journal Title
Journal ISSN
Volume Title
Publisher
Видавництво Львівської політехніки
Lviv Politechnic Publishing House
Lviv Politechnic Publishing House
Abstract
Synthesis methods of controllers based on the use of frequency characteristics or root hodographs are
considered classic or traditional. Frequency methods are available in practical applications, and most control systems are designed
based on various modifications to these methods. A distinctive feature of these methods is the so-called robustness, which means
that the characteristics of a closed system are insensitive to the minor errors of the model of the real system. This feature is
significant because of the complexity of constructing an accurate model of the real system, as well as the fact that many systems
are inherent in all kinds of nonlinearities, which complicate their analysis and synthesis. In recent years, many attempts have been
made to develop new methods of synthesis, commonly referred to as modern control theory. One synthesis method is like the root
hodograph method, which allows positioning the poles of the closed-loop transfer function at predetermined points.
In the article on the basis of information about the desired transient characteristic of the reference, which is obtained on the
basis of a dynamic neural network, using the Ackerman formula, a procedure for calculating the coefficient matrix, whose
introduction in the structure of the object model provides the specified dynamics of the process. On the base of the reference
mathematical model is created the architecture of the corresponding dynamic neural network. During training, there is the target
function as a numerical sequence that corresponds to the desired transient characteristic of the system, and the input signal is given
in the form of a numerical sequence that reproduces jump function. Using the values of the weight coefficients obtained in the
course of learning the neural network, the coefficients of the mathematical model of the reference and the roots of its characteristic
equation are calculated, with the following calculation using the Ackerman formula of the coefficients of the matrix, whose values
are entered into the structure of the model ensuring the specified dynamics of the process in it.
Description
Keywords
Mechatronics, Robotics, System, Synthesis, Dynamics, Ackermann's formula, Neural network
Citation
Neurocontrolled object parameters adjustment by Ackermann’s formula usage / Markiyan Nakonechnyi, Orest Ivakhiv, Oleksandr Viter, Yuriy Nakonechnyi // Measuring equipment and metrology. — Lviv : Lviv Politechnic Publishing House, 2020. — Vol 81. — No 1. — P. 22–29.