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ORCIDJacek Czeczot
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2020 – today
- 2024
[j11]Jakub Musial
, Krzysztof Stebel, Jacek Czeczot, Pawel Nowak, Bogdan Gabrys:
Application of self-improving Q-learning controller for a class of dynamical processes: Implementation aspects. Appl. Soft Comput. 152: 111250 (2024)- 2023
- [j10]Patryk Grelewicz, Pawel Nowak, Thanh Tung Khuat, Jacek Czeczot, Tomasz Klopot, Bogdan Gabrys:
Practical implementation of computationally-efficient machine learning-based control performance assessment system for a class of closed loop systems. Appl. Soft Comput. 146: 110690 (2023) - [j9]Patryk Grelewicz, Thanh Tung Khuat, Jacek Czeczot, Pawel Nowak, Tomasz Klopot, Bogdan Gabrys:
Application of Machine Learning to Performance Assessment for a Class of PID-Based Control Systems. IEEE Trans. Syst. Man Cybern. Syst. 53(7): 4226-4238 (2023) - 2022
- [j8]Krzysztof Stebel, Jakub Pospiech, Witold Nocon, Jacek Czeczot, Piotr Skupin:
Boundary-Based Predictive Controller and Its Application to Control of Dissolved Oxygen Concentration in Activated Sludge Bioreactor. IEEE Trans. Ind. Electron. 69(10): 10541-10551 (2022) - [c22]Jakub Musial, Krzysztof Stebel, Jacek Czeczot:
Implementation aspects of Q-learning controller for a class of dynamical processes. MMAR 2022: 382-387 - 2021
- [j7]Tomasz Klopot, Piotr Skupin, Patryk Grelewicz, Jacek Czeczot:
Practical PLC-Based Implementation of Adaptive Dynamic Matrix Controller for Energy-Efficient Control of Heat Sources. IEEE Trans. Ind. Electron. 68(5): 4269-4278 (2021) - [j6]Patryk Grelewicz, Pawel Nowak, Jacek Czeczot, Jakub Musial:
Increment Count Method and Its PLC-Based Implementation for Autotuning of Reduced-Order ADRC With Smith Predictor. IEEE Trans. Ind. Electron. 68(12): 12554-12564 (2021) - [i1]Patryk Grelewicz, Thanh Tung Khuat, Jacek Czeczot, Tomasz Klopot, Bogdan Gabrys:
Application of Machine Learning to Performance Assessment for a class of PID-based Control Systems. CoRR abs/2101.02939 (2021) - 2020
- [c21]Michal Fratczak, Pawel Nowak, Tomasz Klopot, Jacek Czeczot, Szymon Bysko, Sara Bysko:
Component-Based Simulation Tool for Virtual Commissioning of Control Systems for Heat Exchange and Distribution Processes. AUTOMATION 2020: 67-77 - [c20]Pawel Nowak, Patryk Grelewicz, Jacek Czeczot:
The Novel Approach to the Tuning of the Reduced-Order Active Disturbance Rejection Controller for Second-Order Processes. KKA 2020: 1359-1370
2010 – 2019
- 2018
- [j5]Grzegorz Polaków, Jacek Czeczot, Piotr Laszczyk:
Agent-based approach to continuous process control for enabling parallelization of engineering cycles. Concurr. Eng. Res. Appl. 26(3): 287-298 (2018) - [c19]Pawel Nowak, Patryk Grelewicz, Jacek Czeczot:
Practical Validation of the Reduced-Order Active Disturbance Rejection Controller for the Delay-Dominated Processes. MMAR 2018: 292-297 - 2017
- [c18]Pawel Nowak, Jacek Czeczot:
Practical verification of active disturbance rejection controller for the pneumatic setup. MMAR 2017: 19-24 - 2016
- [c17]Pawel Nowak, Jacek Czeczot:
Robust tuning for first-order reduced active disturbance rejection controller. MMAR 2016: 112-117 - 2015
- [j4]Payman Shakouri, Jacek Czeczot, Andrzej W. Ordys:
Simulation Validation of Three Nonlinear Model-Based Controllers in the Adaptive Cruise Control System. J. Intell. Robotic Syst. 80(2): 207-229 (2015) - [c16]Pawel Nowak, Jacek Czeczot, Krzysztof Stebel:
On potential possibilities of gain and phase margin specifications-oriented robust tuning of Balance-Based Adaptive Controller. ACC 2015: 5647-5652 - [c15]Michal Fratczak, Pawel Nowak, Tomasz Klopot, Jacek Czeczot, Szymon Bysko, Bartosz Opilski:
Virtual commissioning for the control of the continuous industrial processes - Case study. MMAR 2015: 1032-1037 - 2014
- [j3]Krzysztof Stebel, Jacek Czeczot, Piotr Laszczyk:
General tuning procedure for the nonlinear balance-based adaptive controller. Int. J. Control 87(1): 76-89 (2014) - [c14]Pawel Nowak, Jacek Czeczot, Tomasz Klopot, Mateusz Szymura, Bogdan Gabrys:
Linearizing Controller for Higher-degree Nonlinear Processes with Compensation for Modeling Inaccuracies - Practical Validation and Future Developments. ICINCO (1) 2014: 691-698 - [c13]Michal Fratczak, Pawel Nowak, Jacek Czeczot:
Simplified modeling of plate heat exchangers. MMAR 2014: 578-583 - [c12]Michal Fratczak, Jacek Czeczot, Pawel Nowak:
Simulation validation of the model-based control of the plate heat exchanger with on-line compensation for modelling inaccuracies. SIMULTECH 2014: 657-665 - 2013
- [c11]Witold Klopot, Tomasz Klopot, Piotr Laszczyk, Jacek Czeczot, Mieczyslaw Metzger:
Practical Implementation of the Nonlinear Control of the Liquid Level in the Tank of Irregular Shape. ICIRA (2) 2013: 178-188 - [c10]Tomasz Klopot, Krzysztof Stebel, Jacek Czeczot, Piotr Laszczyk:
Function block practical implementation of Balance-Based Adaptive Control for pH process. IECON 2013: 3549-3554 - [c9]Michal Fratczak, Tomasz Klopot, Jacek Czeczot, Markus Bregulla:
Representative Vector Method for modeling of energy consumption for the assembly line. MMAR 2013: 420-425 - [c8]Krzysztof Stebel, Jacek Czeczot:
Balance-based adaptive control of the second order systems. MMAR 2013: 548-553 - [c7]Pawel Nowak, Jacek Czeczot:
Observer-based cascade control of the heat distribution system. MMAR 2013: 633-638 - 2012
- [c6]Piotr Laszczyk, Jacek Czeczot:
Nonminimum-phase process control with controllers based on simplified modeling. CCA 2012: 1652-1657 - [c5]Tomasz Klopot, Jacek Czeczot, Witold Klopot:
Flexible function block for PLC-based implementation of the Balance-Based Adaptive Controller. ACC 2012: 6467-6472 - [c4]Piotr Laszczyk, Jacek Czeczot, Rafal Czubasiewicz, Krzysztof Stebel:
Practical verification of the control strategies for the counter-current heat exchanger. MMAR 2012: 96-101 - [c3]Payman Shakouri, Jacek Czeczot, Andrzej W. Ordys:
Adaptive Cruise Control System using Balance-Based Adaptive Control technique. MMAR 2012: 510-515 - [c2]Piotr Laszczyk, Rafal Czubasiewicz, Jacek Czeczot:
LabView-based implementation of Balance-Based Adaptive Control technique. MMAR 2012: 516-521
2000 – 2009
- 2008
- [j2]Jacek Czeczot:
Modelling for the effective control of the electric flow heaters - Simulation validation. Simul. Model. Pract. Theory 16(4): 429-444 (2008) - 2000
- [j1]Jacek Czeczot, Mieczyslaw Metzger, Jean-Pierre Babary, Markku T. Nihtilä:
Filtering in adaptive control of distributed parameter bioreactors in the presence of noisy measurements. Simul. Pract. Theory 8(1-2): 39-56 (2000)
1990 – 1999
- 1996
- [c1]Jacek Czeczot:
The LabView-Based Virtual Simulator of The Substrate Consumption Rate Measurement System in The Activated Sludge Process. ESM 1996: 1049-1052
Coauthor Index
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last updated on 2024-06-03 00:56 CEST by the dblp team
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