Krzysztof Rogowski, PhD Eng., Department of Automatic Control and Robotics

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ABOUT ME

• (2015 – now) assistant professor at the Faculty of Electrical Engineering, the Bialystok University of Technology,
• (2012 – 2014) assistant lecturer at the Faculty of Electrical Engineering, the Bialystok University of Technology,
• (2012) PhD degree with distinction for the thesis entitled „Selected problems of the theory of two-dimensional systems of fractional order described by the Roesser model” (field: technical sciences, discipline: electrical engineering, specialization: control theory) at the Bialystok University of Technology,
• 2007 – 2011 PhD studies (3rd degree) in the scientific discipline of Electrical Engineering at the Bialystok University of Technology,
• 2002 – 2007 long-cycle studies – Master Studies at the Bialystok University of Technology: Electrical Engineering, specialization: Automatics and microprocessor technology.

SCIENTIFIC ACTIVITY

Interests

• control theory, electrical engineering, electric power engineering;
• application of matrix, differential and differential calculus of fractional order in electrical engineering;
• programs for engineering calculations MATLAB, Scilab in modeling of control systems and power system elements.

Publications

Articles

1. Piotrowska E., Rogowski K., Time-Domain Analysis of Fractional Electrical Circuit Containing Two Ladder Elements, Electronics (Switzerland), 2021, Vol. 10, No. 4, pp. 1-13, 475. DOI:10.3390/electronics10040475
2. Rogowski K., General Response Formula for CFD Pseudo-Fractional 2D Continuous Linear Systems Described by the Roesser Model, Symmetry-Basel, 2020, Vol. 12, No. 12, pp. 1-12, 1934. DOI:10.3390/sym12121934
3. Rogowski K., Solution to the Fractional-Order 2D Continuous Systems Described by the Second Fornasini-Marchesini Model, IFAC-PapersOnLine, 2017, Vol. 50, No. 1, s.9748-9752. DOI:10.1016/j.ifacol.2017.08.217
4. Rogowski K., Reachability of standard and fractional continuous-time systems with constant inputs, Archives of Control Sciences, Vol. 26, No. 2, pp. 147-159, 2016.
5. Kaczorek T., Rogowski K., A computer algorithm for the solution of the state equations of descriptor fractional discrete-time linear systems, Pomiary Automatyka Kontrola (Measurements Automation Monitoring), Vol. 59, No. 7, pp. 695-699, 2013.
6. Rogowski K., General response formula for fractional 2D continuous-time linear systems described by the Roesser model, Acta Mechanica et Automatica, Vol. 5, No. 2,pp. 112-116, 2011.
7. Rogowski K., Positivity and stability of fractional 2D Lyapunov systems described by the Roesser model , Bulletin of the Polish Academy of Sciences: Technical Sciencces, Vol. 59, No. 2, 2011, pp. 195-200.
8. Kaczorek T., Rogowski K., Reachability of linear hybrid systems described by the general model, Archives of Control Sciences, Vol. 20, No. 2, 2010, pp. 199-207.
9. Rogowski K., Dodatniość i stabilność dwuwymiarowych ukladów Lapunowa niecałkowitego rzędu opisanych modelem Roessera (Positivity and stability of two-dimensional Lapunov systems of fractional orders described by the Roesser model), Pomiary Automatyka Robotyka (Measurements Automation Robotics), No. 2, 2010, pp. 453-462.
10. Kaczorek T., Rogowski K., Positivity and stabilization of fractional 2D linear systems described by the Roesser model , International Journal of Applied Mathematics and Computer Science, Vol. 20, No. 1, 2010, pp. 85-92.
11. Rogowski K., Kaczorek T., Symulacja singularnych liniowych układów ciągłych (Simulation of singular linear continuous-time systems) , Pomiary Automatyka Kontrola (Measurements Automation Monitoring), No. 9, 2008, pp. 620-622.

Monographs and chapters in monographs

1. Rogowski K., Reachability of standard and fractional continuous-time systems with piecewise constant inputs, in Challenges in Automation, Robotics and Measurement Techniques, Vol. 440, pp. 341-349, Springer, 2016.
2. Kaczorek T., Rogowski K., Fractional linear systems and electrical circuits, Studies in Systems, Decision and Control, Vol. 13, Springer, 2015.
3. Kaczorek T., Rogowski K., Fractional linear systems and electrical circuits, No. 263, 2014, Bialystok, Publishing Office of Bialystok Technical University,
4. Piotrowska E., Rogowski K., Analysis of Fractional Electrical Circuit Using Caputo and Conformable Derivative Definitions In: Non-integer Order Systems [9th Conference on Non-integer Order Calculus and Its Applications] / Ostalczyk P., Sankowski D., Nowakowski J. (editors), Lecture Notes in Electrical Engineering, 2019, Vol. 496, Cham, Springer, pp.183-194, DOI:10.1007/978-3-319-78458-8_16
5. Rogowski K., Minimum Energy Control and Reachability of Continuous-Time Linear Systems with Rectangular Inputs In: Automation 2019 Progress in Automation, Robotics and Measurement Techniques / Szewczyk R., Zieliński C., Kaliczyńska M. (editors), Advances in Intelligent Systems and Computing, 2020, No. 920, Cham, Springer, pp. 208-217, DOI:10.1007/978-3-030-13273-6_21
6. Rogowski K., Positivity analysis of continuous Fornasini-Marchesini fractional model, In: Proceedings of the 5th International Symposium on Positive Systems: POSTA 2016, 2016, Rome.
7. Rogowski K., Reachability of Standard and Fractional Continuous-Time Systems with Piecewise Constant Inputs w: Challenges in Automation, Robotics and Measurement Techniques : Proceedings of Automation-2016, Advances in Intelligent Systems and Computing, 2016, Vol. 440, Cham, Springer, pp. 341-349, DOI:10.1007/978-3-319-29357-8_31

Conference papers

1. Rogowski K., Positivity analysis of continuous Fornasini-Marchesini fractional model, The 5th International Symposium on Positive Systems (POSTA2016), September 14th-16th 2016, Rome, Italy.
2. Rogowski K., Osiągalność standardowych i ułamkowych układów ciągłych o odcinkowo stałych wymuszeniach, AUTOMATION 2016, 2-3 March 2016, Warsaw.
3. Rogowski K., General response formula for fractional 2D continuous-time linear systems described by the Roesser model, III Seminarium Naukowe Rachunek Różniczkowy Niecałkowitego Rzędu i Jego Zastosowania, 4-5 July 2011, Bialystok.
4. Kaczorek T., Rogowski K., Reachability of linear hybrid systems described by the general model, Mathematical Methods in Engineering International Symposium, 21-24 October 2010, Coimbra.
5. Rogowski K., Dodatniość i stabilność dwuwymiarowych układów Lapunowa niecałkowitego rzędu opisanych modelem Roessera, AUTOMATION 2010, 24-26 March 2010, Warszawa.
6. Kaczorek T., Rogowski K., Positivity and stabilization of fractional 2D linear systems described by the Roesser model, Proceedings of the 14th International Conference on Methods and Models in Automation and Robotics, 19-21 August 2009, Miedzyzdroje.
7. Rogowski K., Observability of the positive different orders fractional 2D linear systems, X Międzynarodowe Warsztaty Doktoranckie OWD 2008, 18-21 October 2008, Wisla-Glebce, pp. 543-548.

Participation in research projects

• 2011 – 2012 – Head of work for the development of young scientists and participants of doctoral studies no. MB / WE / 15/2011 entitled Selected problems of the theory of two-dimensional fractional order systems described by the Roesser model
• 2013 – 2014 – participation in project no. S/WE/2/2013 entitled: Mathematical models of reliability and safety of power systems and devices
• 2014 – 2015 – participation in project no. S/WE/4/2013 entitled: Active optical fiber technology and application of semiconductor radiation sources research task: Mathematical models of reliability and safety of electrical power devices financed by Ministry of Science and Higher Education in Poland at the Białystok University of Technology
• 2015 – 2018 – participation in a research project financed by the National Science Center entitled Descriptor nonlinear and linear systems of fractional orders
• 2016 – 2019 – participation in project no. S/WE/1/2016 entitled: Modern methods of analysis, synthesis, control and diagnostics of dynamic systems financed by Ministry of Science and Higher Education in Poland at the Białystok University of Technology
• 2018 – 2021 – participation in a research project financed by the National Science Center entitled Analysis and synthesis of selected classes of linear and non-linear systems of fractional order
• 2019 – 2022 – participation in project no. WZ/WE-IA/6/2020 entitled Analysis, synthesis and diagnostics of modern control systems financed by Ministry of Science and Higher Education in Poland at the Białystok University of Technology
• 2023 – 2025 – participation in project no. WZ/WE-IA/5/2023 entitled Analysis, synthesis and diagnostics methods in modern control

Assistant supervisor in doctoral dissertations

• „Stability and stabilization of selected classes of positive switched systems” Robert Cimochowski, M.Sc.Eng.
• „Analysis of electrical circuits containing elements described by derivatives of different fractional orders” Ewa Piotrowska, M.Sc.Eng. – PhD thesis defended on September 22, 2021,
• „Application of feedback control in linear descriptor dynamical systems” Kamil Borawski, M.Sc.Eng. – PhD thesis defended with distinction on June 26, 2020

ORGANIZATIONAL ACTIVITY

Functions:

• Faculty Coordinator for disabled students 2020-2024
• Tutor of the year in the field of Electronics and Telecommunications of full-time first-cycle studies from the academic year 2018/2019 to 2022/2023
• Tutor of the year in the field of Electrical Engineering full-time first-cycle studies from the academic year 2015/2016 to 2019/2020

Membership in organizations

• Polish Society of Theoretical and Applied Electrical Engineering (PTETiS), Bialystok Branch, since 2013
• member of the PTETiS Young Workers Committee, since 2016
• member of the Board PTETiS (Deputy Treasurer), 2021-2024
• member of the 2018 AEIC Series Conference Committee

Participation in the works of committees, teams, projects

• Standing Committee of the Faculty Council of Electrical Engineering for student affairs and teaching (2016-2019);
• Teaching team for the comprehensive evaluation of the implemented education program in the field of Electrical Engineering at the EC (2016-2019);
• Departmental Commission for the Evaluation of Graduate Work carried out at the Faculty of Electrical Engineering (2020-2024);
• participation in the „PB Accessible” project, which is co-financed by the European Union under the European Social Fund, Operational Program Knowledge, Education and Development, Priority Axis III. Higher education for economy and development, Measure 3.5 Comprehensive programs of universities, implemented in partnership with the Podlasie Regional Council of People with Disabilities (2020-2021)

TEACHING ACTIVITIES

Subjects

• Fundamentals of automation, Automation, Control technology,
• Fundamentals of Control Engineering, Control Engineering and Systems,
• Fundamentals of electric power engineering, Electricity transmission, Electric power networks, Electric power devices, Electric devices, Electric devices and installations, Electric power automation;
• Fundamentals of microprocessor technology, Microprocessor technology, Programmable logic structures;
• Engineering and master’s theses (supervisor of 32 defended theses).

Awards and distinctions

• teaching activity assessed as outstanding in student surveys for the summer semester of the 2019/2020 academic year
• teaching activity assessed as distinctive in student surveys for the winter semester of the academic year 2017/2018
• winner of the prof. M. Busłowicz competition for scientific achievements in the year 2015