Applied sciences

Archives of Control Sciences

Description

Archives of Control Sciences welcomes for consideration papers on topics of significance in broadly understood control science and related areas, including: basic control theory, optimal control, optimization methods, control of complex systems, mathematical modeling of dynamic and control systems, expert and decision support systems and diverse methods of knowledge modelling and representing uncertainty (by stochastic, set-valued, fuzzy or rough set methods, etc.), robotics and flexible manufacturing systems. Related areas that are covered include information technology, parallel and distributed computations, neural networks and mathematical biomedicine, mathematical economics, applied game theory, financial engineering, business informatics and other similar fields.

Aims and Scope: Archives of Control Sciences publishes papers in the broadly understood field of control science and related areas while promoting the closer integration of the Polish, as well as other Central and East European scientific communities with the international world of science.

IMPACT FACTOR 2022: 1.2

CiteScore 2022: 2.7

SCImago Journal Rank (SJR) 2022: 0.304

Source Normalized Impact per Paper (SNIP) 2021: 0.570

ISSN

ISSN 1230-2384

Publishers

Committee of Automatic Control and Robotics PAS

Editor-in-Chief prof. dr hab. inż. Andrzej Świerniak

Deputy/ Managing Editor
Zbigniew Ogonowski, Silesian University of Technology, Gliwice, Poland

Editorial Advisory Board
Sebastian Anita, University Alexandru Ioan Cuza, Romania
Roman Barták, Charles University, Prague, Czech Republic
Andrzej Bartoszewicz, Lodz University of Technology, Poland
Jacek Błażewicz, Poznań University of Technology, Poland
Adam Czornik, Silesian University of Technology, Poland
Reggie Davidrajuh, University of Stavanger, Norway
Moritz Diehl, University of Freiburg, Germany
Marcelo D.Fragoso, LNCC/MCT, Rio de Janeiro, Brasil
Avner Friedman, MBI Ohio State University, Columbus, USA
Mats Gyllenberg, University of Helsinki, Finland
Wassim M. Haddad, Georigia University, Atlanta, USA
Alberto Isidori, Università di Roma "La Sapienza" Italia
Asatur Zh. Khurshudyan, NAS of Armenia, Armenia
Marek Kimmel, Rice University Houston, USA
Jerzy Klamka, Institute of Theoretical and Applied Informatics PAS, Poland
Józef Korbicz, University of Zielona Góra, Poland
Piotr Kulczycki, Institute of System Research PAS, Poland
Irena Lasiecka, University of Virginia, USA
Urszula Ledzewicz, Southern Illinois University at Edwardsville, USA
Magdi S. Mahmoud, KFUM, Dahram, Saudi Arabia
Evgenii K. Makarov, NAS of Belarus, Belarus
Krzysztof Malinowski, Warsaw University of Technology, Poland
Wojciech Mitkowski, AGH University of Science and Technology, Poland
Francisco Javier Muros, University of Seville, Spain
Bozenna Pasik-Duncan, University of Kansas, Lawrence, USA
Marek Pawełczyk, Silesian University of Technology, Poland
Ian Postlethwaite, Newcastle University, Newcastle, UK
Witold Respondek, Institut National des Sciences Appliquées de Rouen, France
Eric Rogers, University of Southampton, UK
Heinz Schaettler, Washington University, St Louis, USA
Ryszard Tadeusiewicz, AGH University of Science and Technology, Poland
Jan Węglarz, Poznań University of Technology, Poland
Liu Yungang, Shandong University, PRC
Valery D. Yurkevich, Novosibirsk State Technical University, Russia

Institute of Automatic Control
Silesian University of Technology
Akademicka 16
44-101 Gliwice, Poland

acs@polsl.pl
http://acs.polsl.pl/

Archives of Control Sciences is an open access journal with all content available with no charge in full text version.

The journal content is available under the licencse CC BY-NC-ND 4.0 https://creativecommons.org/licenses/by-nc-nd/4.0/.

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Content

Archives of Control Sciences | 2023 | vol. 33 | No 3

1 Necessary optimality conditions for quasi-singular controls for systems with Caputo fractional derivatives

Shakir Sh. Yusubov , Elimhan N. MahmudoV

Archives of Control Sciences | 2023 | vol. 33 | No 3 | 463–496 | DOI: 10.24425/acs.2023.146955

Keywords: fractional derivative fractional optimal control necessary optimality condition

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Abstract

In this paper, we consider an optimal control problem in which a dynamical system is controlled by a nonlinear Caputo fractional state equation. First we get the linearized maximum principle. Further, the concept of a quasi-singular control is introduced and, on this basis, an analogue of the Legendre-Clebsch conditions is obtained. When the analogue of Legendre- Clebsch condition degenerates, a necessary high-order optimality condition is derived. An illustrative example is considered.

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Authors and Affiliations

Shakir Sh. Yusubov

Elimhan N. MahmudoV

2 3

e-mail:

ORCID:

Department of Mechanics and Mathematics, Baku State University, Baku, Azerbaijan
Department of Mathematics, Istanbul Technical University, Istanbul, Turkey
Azerbaijan National Aviation Academy, Baku, Azerbaijan

2 On the control of the final speed for a class of finite-dimensional linear systems: controllability and regulation

Mostafa Rachik , Issam Khaloufi , Youssef Benfatah , Hamza Boutayeb , Hassan Laarabi

Archives of Control Sciences | 2023 | vol. 33 | No 3 | 497–525 | DOI: 10.24425/acs.2023.146956

Keywords: speed-controllability controllability continuous systems regulation Kalman’scondition

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Abstract

In this article, we extended the concept of controllability, traditionally used to control the final state of a system, to the exact control of its final speed. Inspired by Kalman’s theory, we have established some conditions to characterize the control that allows the system to reach a desired final speed exactly. When the assumptions ensuring speed-controllability are not met, we adopt a regulation strategy that involves determining the control law to make the system’s final speed approach as closely as possible to the predefined final speed, and this at a lower cost. The theoretical results obtained are illustrated through three examples.

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Authors and Affiliations

Mostafa Rachik

e-mail:

ORCID:

Issam Khaloufi

e-mail:

ORCID:

Youssef Benfatah

e-mail:

ORCID:

Hamza Boutayeb

e-mail:

ORCID:

Hassan Laarabi

e-mail:

ORCID:

Laboratory of Analysis Modeling and Simulation, Department of Mathematics and Computer Science, Faculty of Sciences Ben M’Sik, Hassan II University Casablanca, BP 7955, Sidi Othman, Casablanca, Morocco

3 On the robustness of the integrable trajectories of the control systems with limited control resources

Nesir Huseyin , Anar Huseyin , Khalik G. Guseinov

Archives of Control Sciences | 2023 | vol. 33 | No 3 | 527–537 | DOI: 10.24425/acs.2023.146958

Keywords: nonlinear control system integral equation integral constraint integrable trajectory robustness

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Abstract

The control system described by Urysohn type integral equation is considered where the system is nonlinear with respect to the phase vector and is affine with respect to the control vector. The control functions are chosen from the closed ball of the space Lq (Ω; ℝ<sup>m</sup>), q > 1, with radius r and centered at the origin. The trajectory of the system is defined as p-integrable multivariable function from the space Lq (Ω; ℝ<sup>n</sup>), (1/q) + (1/p) = 1, satisfying the system’s equation almost everywhere. It is shown that the system’s trajectories are robust with respect to the fast consumption of the remaining control resource. Applying this result it is proved that every trajectory can be approximated by the trajectory obtained by full consumption of the total control resource.

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Authors and Affiliations

Nesir Huseyin

e-mail:

ORCID:

Anar Huseyin

e-mail:

ORCID:

Khalik G. Guseinov

e-mail:

ORCID:

Department of Mathematics and Science Education, Sivas Cumhuriyet University, 58140 Sivas, Turkey
Department of Statistics and Computer Sciences, Sivas Cumhuriyet University, 58140 Sivas, Turkey
Department of Mathematics, Eskisehir Technical University, 26470 Eskisehir, Turkey

4 Review, design, stabilization and synchronization of fractional-order energy resources demand-supply hyperchaotic systems using Fractional-order PD-based Feedback Control scheme

Ammar Soukkou , Yassine Soukkou , Sofiane Haddad , Mohamed Benghanem , Abdelhamid Rabhi

Archives of Control Sciences | 2023 | vol. 33 | No 3 | 539–563 | DOI: 10.24425/acs.2023.146957

Keywords: fractional-order systems fractional-order control Lyapunov stability theory multiobjective optimization artificial hummingbird algorithm stabilization and synchronization energy resources demand-dupply systems

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Abstract

This paper introduces a fractional-order PD approach (F-oPD) designed to control a large class of dynamical systems known as fractional-order chaotic systems (F-oCSs). The design process involves formulating an optimization problem to determine the parameters of the developed controller while satisfying the desired performance criteria. The stability of the control loop is initially assessed using the Lyapunov’s direct method and the latest stability assumptions for fractional-order systems. Additionally, an optimization algorithm inspired by the flight skills and foraging behavior of hummingbirds, known as the Artificial Hummingbird Algorithm (AHA), is employed as a tool for optimization. To evaluate the effectiveness of the proposed design approach, the fractional-order energy resources demand-supply (Fo-ERDS) hyperchaotic system is utilized as an illustrative example.

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Authors and Affiliations

Ammar Soukkou

Yassine Soukkou

Sofiane Haddad

Mohamed Benghanem

Abdelhamid Rabhi

Renewable Energy Laboratory, Faculty of Science and Technology, Department of Electronics, University of MSBY Jijel, BP. 98, Ouled Aissa, Jijel, Algeria
Research Center in Industrial Technologies CRTI, P. O. Box. 64, Cheraga 16014, Algiers, Algeria
Physics Department, Faculty of Science, Islamic University of Madinah, Madinah, KSA
Modeling, Information and Systems Laboratory, University of Picardie Jules Verne, Amiens, France.

5 The buffered optimization methods for online transfer function identification employed on DEAP actuator

Jakub Bernat , Jakub Kołota

Archives of Control Sciences | 2023 | vol. 33 | No 3 | 565–587 | DOI: 10.24425/acs.2023.146960

Keywords: Stochastic Gradient Descent ADAM AMSGrad DEAP system identification

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Abstract

Identification plays an important role in relation to control objects and processes as it enables the control system to be properly tuned. The identification methods described in this paper use the Stochastic Gradient Descent algorithms, which have so far been successfully presented in machine learning. The article presents the results of the Adam and AMSGrad algorithms for online estimation of the Dielectric Electroactive Polymer actuator (DEAP) parameters. This work also aims to validate the learning by batch methodology, which allows to obtain faster convergence and more reliable parameter estimation. This approach is innovative in the field of identification of control systems. The researchwas supplemented with the analysis of the variable amplitude of the input signal. The dynamics of the DEAP parameter convergence depending on the normalization process was presented. Our research has shown how to effectively identify parameters with the use of innovative optimization methods. The results presented graphically confirm that this approach can be successfully applied in the field of control systems.

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Authors and Affiliations

Jakub Bernat

e-mail:

ORCID:

Jakub Kołota

e-mail:

ORCID:

Institute of Automatic Control and Robotics, Poznan University of Technology, Poznan, Poland

6 ARL-Wavelet-BPF optimization using PSO algorithm for bearing fault diagnosis

Muhammad Ahsan , Dariusz Bismor , Muhammad Arslan Manzoor

Archives of Control Sciences | 2023 | vol. 33 | No 3 | 589–606 | DOI: 10.24425/acs.2023.146961

Keywords: signal-to-noise ratio asymmetric real Laplace wavelet bandpass filter particleswarm optimization spectral kurtosis fault frequency

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Abstract

Rotating element bearings are the backbone of every rotating machine. Vibration signals measured from these bearings are used to diagnose the health of the machine, but when the signal-to-noise ratio is low, it is challenging to diagnose the fault frequency. In this paper, a new method is proposed to enhance the signal-to-noise ratio by applying the Asymmetric Real Laplace wavelet Bandpass Filter (ARL-wavelet-BPF). The Gaussian function of the ARLwavelet represents an excellent BPF with smooth edges which helps to minimize the ripple effects. The bandwidth and center frequency of the ARL-wavelet-BPF are optimized using the Particle Swarm Optimization (PSO) algorithm. Spectral kurtosis (SK) of the envelope spectrum is employed as a fitness function for the PSO algorithm which helps to track the periodic spikes generated by the fault frequency in the vibration signal. To validate the performance of the ARL-wavelet-BPF, different vibration signals with low signal-to-noise ratio are used and faults are diagnosed.

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Authors and Affiliations

Muhammad Ahsan

e-mail:

ORCID:

Dariusz Bismor

e-mail:

ORCID:

Muhammad Arslan Manzoor

Department of Measurements and Control Systems, Silesian University of Technology, 44-100 Gliwice, Poland
Department of Natural Language Processing, Mohamed bin Zayed University of Artificial Intelligence, Abu Dhabi, UAE

7 Conditions for asymptotic stability of first order scalar differential-difference equation with complex coefficients

Rafał Kapica , Radosław Zawiski

Archives of Control Sciences | 2023 | vol. 33 | No 3 | 607-629 | DOI: 10.24425/acs.2023.146962

Keywords: first order differential-difference equation with complex coefficients stability ofdifferential-difference equation characteristic exponential polynomial of differential-differenceequation retarded differential-difference equation (DDE)

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Abstract

We investigate a scalar characteristic exponential polynomial with complex coefficients associated with a first order scalar differential-difference equation. Our analysis provides necessary and sufficient conditions for allocation of the roots in the complex open left half-plane what guarantees asymptotic stability of the differential-difference equation. The conditions are expressed explicitly in terms of complex coefficients of the characteristic exponential polynomial, what makes them easy to use in applications. We show examples including those for retarded PDEs in an abstract formulation.

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Authors and Affiliations

Rafał Kapica

e-mail:

ORCID:

Radosław Zawiski

e-mail:

ORCID:

Faculty of Applied Mathematics, AGH University of Science and Technology, al.Mickiewicza 30, 30-059 Kraków
Department of Automatic Control and Robotics, Silesian University of Technology, ul. Akademicka 16, 44-100 Gliwice

8 An observer design for Takagi-Sugeno fuzzy bilinear control systems

François Delmotte , Nizar Hadj Taieb , Mohamed Ali Hammami , Houria Meghnafi

Archives of Control Sciences | 2023 | vol. 33 | No 3 | 631–649 | DOI: 10.24425/acs.2023.146959

Keywords: fuzzy systems bilinear systems stability analysis observer design

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Abstract

In this paper, the observer design problem for a T-S fuzzy bilinear control system is investigated. First, an observer of Kalman type is designed to estimate the system states for the linear case. Then, some new sufficient conditions are derived to show the exponential convergence of the solutions of the error equation for fuzzy bilinear systems. Furthermore, we consider some uncertainties of the system that are bounded and satisfy a certain condition where an observer is designed. Moreover, an application to Van de Vusse system is given.

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Authors and Affiliations

François Delmotte

Nizar Hadj Taieb

Mohamed Ali Hammami

Houria Meghnafi

University of Artois, Bethune, France
University of Sfax, IPEIS Sfax, Tunisia
University of Sfax, Faculty of Sciences of Sfax, Tunisia

9 Analysis of pandemic with game methodology and numerical approximation

Radosław Matusik , Andrzej Nowakowski

Archives of Control Sciences | 2023 | vol. 33 | No 3 | 651–680 | DOI: 10.24425/acs.2023.146963

Keywords: COVID-19 game model of pandemic pproximate dual dynamic programming sufficient approximate optimality conditions for Nash equilibrium numerical algorithm

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Abstract

We build a mathematical game model of pandemic transmission, including vaccinations of population and budget costs of different acting to eliminate pandemic. We assume the interactions among different groups: vaccinated, susceptible, exposed, infectious, super-spreaders, hospitalized and fatality, defining a system of ordinary differential equations, which describes compartment model of disease and costs of the treatment. The goal of the game is to describe the development disease under different types of treatment, but including costs of them and social restrictions, during the shortest time period. To this effect we construct a dual dynamic programming method to describe open-loop Nash equilibrium for treatment, a group of people having antibodies and budget costs. Next, we calculate numerically an approximate open-loop Nash equilibrium.

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Authors and Affiliations

Radosław Matusik

e-mail:

ORCID:

Andrzej Nowakowski

e-mail:

ORCID:

Faculty of Mathematics and Computer Science, University of Lodz, Banacha 22, Łódz, 90-238, Poland

10 Robustness of closed-loop glucose control systems

Artur Wyciślok , Jarosław Śmieja

Archives of Control Sciences | 2023 | vol. 33 | No 3 | 681–705 | DOI: 10.24425/acs.2023.146964

Keywords: artificial pancreas closed-loop control insulin pump type 1 diabetes

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Abstract

The main purpose of this work is to provide an extensive, simulation-based comparison of robustness of PID and MPC algorithms in control of blood glucose levels in patients with type 1 diabetes and thus answer the question of their safety. Cohort testing, with 1000 simulated, randomized patients allowed to analyze specific control quality indicators, such as number of hypoglycemic events, and length of hypo- and hyperglycemia periods. Results show that both algorithms provide a reasonable safety level, taking into account natural changes of patients’ physiological parameters. At the same time, we point out drawbacks of each solution, as well as general problems arising in close-loop control of blood glucose level.

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Authors and Affiliations

Artur Wyciślok

e-mail:

ORCID:

Jarosław Śmieja

Department of Biology and Systems Engineering, Silesian University of Technology, Gliwice, Poland

Instructions for authors

Each paper submitted is subject to a review procedure, and the publication decision is based on reviers' comments on the paper. To avoid delay, please prepare the manuscript carefully following the suggestions listed below.

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R. E. Kalman: Mathematical description of linear dynamical system. SIAM J. Control. 1(2), (1963), 152-192.
F. C. Shweppe: Uncertain dynamic systems. Prentice-Hall, Englewood Cliffs, N.J. 1970.

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