Department of Information Engineering and Process Control (DIEPC)
NB 647
Home page:
+421 259 325 349


  • Total citations       38

J. Závacká – M. Bakošová – K. Matejičková: Robust PI controller design for a continuous stirred tank reactor with multiple steady-states. Editor(s): Fikar, M., Kvasnica, M., In Proceedings of the 19th International Conference on Process Control, Slovak University of Technology in Bratislava, Štrbské Pleso, Slovakia, pp. 468–473, 2013.
  • Number of citations       3
  • Khenfer, Mokhtar – Daaou, Bachir – Bouhamida, Mohamed: TWO NONLINEAR OBSERVERS BASED SLIDING MODE CONTROLLER FOR A\\n MULTIVARIABLE CONTINUOUS STIRRED TANK REACTOR. Mechatronic Systems and Control, no. 1, vol. 48, pp. 35-43, 2020.
  • Atic, Serdal – Kaya, Ibrahim: PID Controller Design based on Generalized Stability Boundary Locus to\\n Control Unstable Processes with Dead Time. In 2018 26th Mediterranean Conference on Control and Automation (med), pp. 436-441, 2018.
  • Atic, Serdal – Cokmez, Erdal – Peker, Fuat – Kaya, Ibrahim: PID Controller Design for Controlling Integrating Processes with Dead\\n Time using Generalized Stability Boundary Locus. Ifac Papersonline, no. 4, vol. 51, pp. 924-929, 2018.
J. Závacká – M. Bakošová – K. Matejičková: Robust PID controller design for unstable processes with parametric uncertainty. Procedia Engineering, vol. 42, pp. 1572–1578, 2012.
  • Number of citations       4
  • Singh, R. – Bhushan, B.: Adaptive control using stochastic approach for unknown but bounded disturbances and its application in balancing control. Asian Journal of Control, 2021.
  • Basnayake, I.D. – Madhushani, T.W.U. – Maithripala, D.H.S.: Intrinsic PID controller for a segway type mobile robot. In 2017 IEEE International Conference on Industrial and Information Systems, ICIIS 2017 - Proceedings, pp. 1-6, 2018.
  • Sharma, J. – Hote, Y.V. – Prasad, R.: Robust PID Load Frequency Controller Design with Specific Gain and Phase Margin for Multi-area Power Systems. In IFAC-PapersOnLine, pp. 627-632, 2018.
  • Macku, L. – Novosad, D.: Influence of online identification methods on the nonlinear process control. In Annals of DAAAM and Proceedings of the International DAAAM Symposium, pp. 216-223, 2017.
J. Závacká – L. Blahová – M. Bakošová – J. Dvoran: Advanced Control of a Mixing Process. Acta Chimica Slovaca, no. 2, vol. 4, pp. 18–32, 2011.
  • Number of citations       1
  • Błaszkiewicz, K. – Biniecki, P. – Piotrowski, R.: Hierarchiczny system sterowania procesem mieszania. Implementacja sprzętowa i badania testowe. POMIARY-AUTOMATICA-ROBOTICA, vol. 7-8, pp. 90-96, 2012.
R. Matušů – J. Závacká – R. Prokop – M. Bakošová: The Kronecker Summation Method for Robust Stabilization Applied to a Chemical Reactor. Journal of Control Science and Engineering, vol. 2011, 2011.
  • Number of citations       4
  • Macku, Lubomir – Samek, David: Comparison of predictive control using Self-Organizing Migrating\\n Algorithm and MATLAB fmincon function. In 22nd International Conference on Circuits, Systems, Communications Andn Computers (cscc 2018), 2018.
  • Macku, Lubomr – Samek, David: Self-Organizing Migrating Algorithm Used for Model Predictive Control of\\n Semi-batch Chemical Reactor. In Automation Control Theory Perspectives in Intelligent Systems, pp. 255-265, 2016.
  • Amarendra Reddy, B. – Muaz, S. – Ramesh, M.: Computation of Stability Regions using Boundary Locus and Kronecker Summation Methods. In International Conference on Current Trends in Computer, Electrical, Electronics and Communication, CTCEEC 2017, pp. 986-991, 2018.
  • Reddy, B.A. – Khatoon, N. – Muaz, S. – Reddy, C.V.V.S.B.: Computation of stability regions for third order systems using boundary locus and kronecker summation methods. In IEEE International Conference on Power, Control, Signals and Instrumentation Engineering, ICPCSI 2017, pp. 2517-2522, 2018.
J. Závacká – M. Bakošová – K. Vaneková: Design of Robust PI Controllers for Control of an Exothermic Chemical Reactor. Editor(s): N. Mastorakis, V. Mladenov, Z. Bojkovic, V. Vasek, In Latest Trends on Systems, WSEAS Press, Corfu Island, Greece, no. II, vol. 14, pp. 387–392, 2010.
  • Number of citations       2
  • Matusu, R. – Senol, B. – Pekar, L.: Robust PI Control of Interval Plants with Gain and Phase Margin Specifications: Application to a Continuous Stirred Tank Reactor. IEEE Access, no. 9160910, vol. 8, pp. 145372-145380, 2020.
  • Matušu, R.: Robust stabilization of a continuous stirred tank reactormodel. In Annals of DAAAM and Proceedings of the International DAAAM Symposium, pp. 147-150, 2016.
K. Vaneková – M. Bakošová – R. Matušů – R. Prokop – J. Závacká: Robust PI controller design for a laboratory time delay process. In 18th Mediterranean Conference on Control and Automation, Marrakech, Morocco, pp. 1000–1006, 2010.
  • Number of citations       3
  • Vrána,S.: Frequency response based the derivative component tuning approach. In Proceedings of the IEEE Conference on Decision and Control, pp. 7813-7818, 2011.
  • Mittal, Rahul – Bhandari, Manisha: Design of Robust PI Controller for Active Suspension System with\\n Uncertain Parameters. In 2015 International Conference on Signal Processing, Computing Andn Control (ispcc), pp. 333-337, 2015.
  • Mande, Daouda – Blondin, Maude – Trovao, Joao Pedro F.: Optimisation of fractional-order PI controller for bidirectional\\n quasi-Z-source inverter used for electric traction system. Iet Electrical Systems in Transportation, no. 4, SI, vol. 10, pp. 376-384, 2020.
M. Bakošová – K. Vaneková – J. Závacká: PI Controller Design for time Delay Systems. In In Proceedings of the 9th IFACWorkshop on Time Delay Systems, 2010.
  • Number of citations       1
  • Supithak, T. – Wongyimyong, N. – Yamada, K. – Banjerdpongchai, D.: Convex optimization approach to multi-objective design of two-stage compensators for linear systems. Engineering Journal, no. 8, vol. 25, pp. 153-162, 2021.
M. Bakošová – D. Puna – J. Závacká – K. Vaneková: Robust Static Output Feedback Control of a Mixing Unit. In Proceedings of the European Control Conference 2009, EUCA, Budapest, pp. 4139–4144, 2009.
  • Number of citations       1
  • M. Fikar – K. Kostúr: Optimal Process Control. In Proceedings of 13th International Carpathian Control Conference, Podbanske, Slovakia, pp. 153–172, 2012.
M. Bakošová – D. Puna – P. Dostál – J. Závacká: Robust stabilization of a chemical reactor. Chemical Papers, no. 5, vol. 63, pp. 527–536, 2009.
  • Number of citations       7
  • López Pérez, P. A. – Neria González, M. I. – Aguilar López, R.: Cadmium concentration stabilization in a continuous sulfate reducing bioreactor via sulfide concentration control. Chemical Papers, no. 3, vol. 67, pp. 326-335, 2013.
  • Castillo, I. – Edgar, T. F.: Model-Based Multiple Fault Detection and Isolation for Nonlinear Systems. In Foundations of Computer-Aided Process Operations 2012, Savannah, Georgia, USA, 2012.
  • Bremer, Jens – Sundmacher, Kai: Operation range extension via hot- spot control for catalytic CO2\\n methanation reactors. Reaction Chemistry & Engineering, no. 6, vol. 4, pp. 1019-1037, 2019.
  • Fatoorehchi, Hooman – Abolghasemi, Hossein – Zarghami, Reza and\\n Rach, Randolph – von Freeden, Sebastian: A novel and computationally efficient algorithm for stability analysis\\n of multi input-multi output process control systems. Korean Journal of Chemical Engineering, no. 9, vol. 32, pp. 1733-1743, 2015.
  • M. Kvasnica – M. Herceg – Ľ. ČirkaM. Fikar: Model predictive control of a CSTR: A hybrid modeling approach. Chemical papers, no. 3, vol. 64, pp. 301–309, 2010.
  • M. Fikar – K. Kostúr: Optimal Process Control. In Proceedings of 13th International Carpathian Control Conference, Podbanske, Slovakia, pp. 153–172, 2012.
  • L. Blahová – J. Dvoran – J. Kmeťová: Neuro-fuzzy control design of processes in chemical technologies. Archives of Control Sciences, no. 2, vol. 22, pp. 233–250, 2012.
A. Vasičkaninová – M. Bakošová – A. Mészáros – J. Závacká: Model-based predictive control of a chemical reactor. In 18th International Congress of Chemical and Process Engineering, Orgit s.r.o., Praha, Czech Republic, pp. 0623-1–0623-6, 2008.
  • Number of citations       12
Facebook / Youtube

Facebook / Youtube