Author

Paweł Sokólski

Paweł

A graduate of the faculty of Electrical Engineering and Automation at the Gdańsk University of Technology (MSc.) And the Faculty of Mechanics, PG (Eng.). He completed post-graduate studies in Modern Methods of Software Development at the Faculty of Informatics of the Gdańsk University of Technology. A specialist in SCADA and MES systems with over ten years of experience in designing, developement, implementing and servicing industrial software installations. Certified Wonderware software programmer. Manager and participant of many projects of computerization of industrial plants in Poland and in the world. He taught at the Naval Academy in Gdynia and lectured at the Gdańsk University of Technology in the field of computer control systems, industrial software and systems integration in industry. He conducts research in the field of modern control algorithms, which results in a number of publications. Entrepreneur conducting activities related to the developement, implementation and servicing of software for industry.

 

Professional interests:

  • Digitalization of industrial plants,
  • Modern technologies in industry,
  • Production management and optimization,
  • Extraction, collection and analysis of production data,
  • Reporting systems.

 

Co-author of a number of publications:

  • M. Czaplinski, K. Duzinkiewicz, R. Piotrowski, T.A. Rutkowski, P. Sokólski, Comparison of state feedback and  ID control of pressurizer water level in nuclear power plant, Archives of Control Sciences Volume 23(LIX), 2013 No. 4, 455–471
  • K. Duzinkiewicz, A. Kobylarz, K. Kulkowski, M. Grochowski, T.A. Rutkowski, P. Sokólski, Advanced control structures of turbo generator system of nuclear power plant, Aktualne problemy w elektroenergetyce Jastrzebia
    Góra, 17–19 czerwca 2015
  • K. Duzinkiewicz, A. Kobylarz, K. Kulkowski, M. Grochowski, T.A. Rutkowski, P. Sokólski, Wielobszarowy system sterowania turbozespołu elektrowni jadrowej, Zeszyty naukowe Wydziału Elektrotechniki i Automatyki Politechniki Gdańskiej, vol. 42, Gdańsk 2015
  • K. Duzinkiewicz, T.A. Rutkowski, P. Sokólski, The excitation controller with gain scheduling mechanism for synchronous generator control, 20th International Conference on Methods and Models in Automation and Robotics, 24-27 August, 2015, Miedzyzdroje
  • P. Sokólski, Implementacja krzepkich metod estymacji dla celów regulacji predykcyjnej typu MPC, Innowacyjne rozwiazania w obszarze automatyki, robotyki i pomiarów, Oficyna wydawnicza PIAP, 2011
  • K. Duzinkiewicz, T.A. Rutkowski, P. Sokólski, Simplified, multiregional fuzzy model of a nuclear power plant steam turbine, 21th International Conference on Methods and Models in Automation and Robotics, 2016
  • Sokólski P., Rutkowski T.A., Duzinkiewicz K., The QDMC Model Predictive Controller for the Nuclear Power Plant Steam Turbine Control, Krajowa Konferencja Automatyki 2017, 18-21 czerwca 2017, Kraków
  •  Sokólski P., Rutkowski T.A., Duzinkiewicz K. The Distributed Model Predictive Controller for the Nuclear Power Plant Turbine Generator, The 22nd International Conference on Methods and Models in Automation and Robotics, 28-31 sierpnia 2017,
  • Sokólski P., Rutkowski T., Hybryda sieci neuronowych i ukrytych modeli Markowa jako nowoczesne podejście do rozpoznawania mowy, Pomiary, Automatyka, Robotyka, 2013, R. 17, nr 2, 449-455
  • Sokólski P., Idea of adaptive control implementation in anti-corrosion protection systems of underground steel structures, Pomiary, Automatyka, Robotyka, 2013, R. 17, nr 2, 443-448
  • Sokólski W., Sokólski P., Inteligentnie sterowany drenaż elektryczny,  Corrosion Measurements in electrochemical protection, 19-21. 09. 2012 Jurata, Poland

 

Co-author of the patent:

Electric drainage system for underground structures
Electric underground drainage system in which the underground structure is connected to the traction rails through a current shunt and a controlled rectifier equipped with a reference electrode.
PL 406777
Filed: January 3, 2014