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Tomasz Trawiński
Tomasz Trawiński
Zweryfikowany adres z polsl.pl
Tytuł
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Cytowane przez
Rok
Usage of the homotopy analysis method for solving the nonlinear and linear integral equations of the second kind
E Hetmaniok, D Słota, T Trawiński, R Wituła
Numerical Algorithms 67, 163-185, 2014
572014
Inversion of dynamic matrices of HDD head positioning system
D Słota, T Trawiński, R Wituła
Applied Mathematical Modelling 35 (3), 1497-1505, 2011
152011
Analysis of magnetic field distribution and mechanical vibration of magnetic field exciter under different voltage supply
T Trawiński, M Szczygieł, J Wyszkowska, K Kluszczyński
Information Technologies in Biomedicine: Volume 2, 613-622, 2010
142010
Homotopy approach for integrodifferential equations
D Słota, E Hetmaniok, R Wituła, K Gromysz, T Trawiński
Mathematics 7 (10), 904, 2019
122019
Modelling and investigation of energy harvesting system utilizing magnetically levitated permanent magnet
J Bijak, T Trawiński, M Szczygieł, Z Kowalik
Sensors 22 (17), 6384, 2022
112022
Design issues of electromagnetic micropump
S Bartel, T Trawiński
15th International Workshop on Research and Education in Mechatronics (REM), 1-7, 2014
112014
Magnetic flux density analysis of magnetic spring in energy harvester by Hall-effect sensors and 2D magnetostatic FE model
J Bijak, GL Sciuto, Z Kowalik, P Lasek, M Szczygieł, T Trawiński
Journal of Magnetism and Magnetic Materials 579, 170796, 2023
102023
A fast method for computing the inverse of symmetric block arrowhead matrices
W Hołubowski, D Kurzyk, T Trawinski
Appl. Math. Inf. Sci 9 (2), 319-324, 2015
102015
Modeling of HDD head positioning systems regarded as robot manipulators using block matrices
T Trawiński, R Wituła
INTECH, 129-144, 2010
102010
Forecasting of reactive power consumption with the use of artificial neural networks
D Błaszczok, T Trawiński, M Szczygieł, M Rybarz
Electronics 11 (13), 2005, 2022
92022
A 2-DoF kinematic chain analysis of a magnetic spring excited by vibration generator based on a neural network design for energy harvesting applications
J Bijak, G Lo Sciuto, Z Kowalik, T Trawiński, M Szczygieł
Inventions 8 (1), 34, 2023
82023
Simulation and investigation of the change of geometric parameters on voltage induced in the energy harvesting system with magnetic spring
J Bijak, T Trawiński, M Szczygieł
Electronics 11 (10), 1639, 2022
82022
Simulation research on hybrid electromechanical device–BLDC motor, torsion torque generator–for torsional vibration spectrum identification of drive systems
A Kochan, T Trawiński
Przegląd Elektrotechniczny 90 (7), 60-64, 2014
82014
Modelowanie układów napędowych systemów pozycjonowania głowic pamięci masowych
T Trawiński
Wydaw. Politechniki Śląskiej, 2010
82010
Static magnetic field and extremely low-frequency magnetic field in hybrid and electric vehicles
J Wyszkowska, M Szczygiel, T Trawinski
Prz. Elektrotech 96 (2), 60-62, 2020
72020
Inversion of selected structures of block matrices of chosen mechatronic systems
T Trawiński, A Kochan, P Kielan, D Kurzyk
Bulletin of the Polish Academy of Sciences. Technical Sciences 64 (4), 853-863, 2016
72016
Kinematic chains of branched head positioning system of hard disk drives
T Trawiński
Przegląd Elektrotechniczny 87 (3), 204-207, 2011
72011
Model matematyczny silnika VCM z nierównomiernym rozkładem pola magnetycznego w szczelinie powietrznej
T Trawiński
Przegląd Elektrotechniczny 83 (12), 114-117, 2007
72007
Verification of the mathematical model of Voice Coil Motor with high range of angular motion
T Trawiński
Research and Education in Mechatronics KTH, Stockholm, Sweden June, 15-16, 2006
72006
Displacement and magnetic induction measurements of energy harvester system based on magnetic spring integrated in the electromagnetic vibration generator
GL Sciuto, J Bijak, Z Kowalik, M Szczygieł, T Trawiński
Journal of Vibration Engineering & Technologies 12 (3), 3305-3320, 2024
62024
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