Oleksandr Muzychuk

Work place: Kharkiv National University of Internal Affairs, Kharkiv, 61080, Ukraine

E-mail: o.muzychuk23@gmail.com

Website: https://orcid.org/0000-0001-8367-2504

Research Interests:

Biography

Oleksandr Muzychuk is Doctor of Science, Professor, Vice-Rector of Kharkiv National University of Internal Affairs. Awarded with a Certificate of Honor from the Verkhovna Rada of Ukraine, as well as departmental commendations: the “For Distinction in Service” II degree badge, the “10 Years of the Ministry of Internal Affairs of Ukraine” medal, the “For Conscientious Service” III degree medal, the «For Distinction in Service» I degree badge, the «Honorary Badge of the Ministry of Internal Affairs», the «Best Employee of the Ministry of Internal Affairs» badge, and the “For the Safety of the People” badge. Published over 200 scientific and educational-methodological works, including 170 of a scientific-practical nature and 30 of an educational-methodological nature. Under his scientific supervision and guidance, 10 doctoral and 45 candidate dissertations have been defended.

Author Articles
Modified Kalman Filter with Chebyshev Points Based on a Recurrent Neural Network for Automatic Control System Measuring Channels Diagnosing and Parring off Failures

By Serhii Vladov Oleksandr Muzychuk Victoria Vysotska Alexey Yurko Dmytro Uhryn

DOI: https://doi.org/10.5815/ijigsp.2024.05.04, Pub. Date: 8 Oct. 2024

The article is devoted to the modified multidimensional Kalman filter with Chebyshev points development to solve the task of diagnosing and parring off failures in the measurement channels of complex dynamic objects automatic control system, which will provide a more accurate and reliable assessment of system state in the presence of outliers in the data. An implementation of the proposed modified multidimensional Kalman filter with Chebyshev points is proposed in the form of a modified recurrent neural network containing a failure diagnostics layer, a failure parry layer, a filtering and smoothing layer, and a results aggregation layer. This structure of the modified recurrent neural network made it possible to solve the main problems of the method of diagnosing and parring off failures of the measuring channels of complex dynamic objects automatic control system, such as diagnosing failures with an accuracy of 0.99802, fending off failures with an accuracy of 0.99796, and assessing the state of the system with an accuracy of 0.99798. It is proposed to use a modified loss function of a recurrent neural network as a general loss function for diagnostics, fault restoring and system state assessment, which makes it possible to avoid retraining when there are a large number of parameters or insufficient data. It has been experimentally proven that the loss function remains stable on both the training and validation data sets for 1000 training epochs and does not go beyond –2.5 % to +2.5 %, which indicates a low-risk overtraining or undertraining of the model. It has been experimentally confirmed that the use of a modified recurrent neural network in solving the task of diagnosing and parring off failures of the measuring channels of complex dynamic objects automatic control system is appropriate in comparison with a radial basis functions neural network and a multidimensional Kalman filter without a neural network implementation, based on metrics such as the root mean square deviation, mean absolute error, mean absolute percentage error, coefficient of determination for the accuracy of reproducing previous data, and coefficient of determination for the accuracy of predicting future values. For example, the value of the standard deviation of the modified recurrent neural network is 0.00226, which is 1.65 times less than the radial basis function neural network and 2.20 times less than the multidimensional Kalman filter without a neural network implementation.

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