Email: jozef.borkowski@pwr.edu.pl

Jednostka: Wydział Elektroniki, Fotoniki i Mikrosystemów » Katedra Metrologii Elektronicznej i Fotonicznej

ul. B. Prusa 53/55, Wrocław
bud. E-1, pok. 305a
tel. 71 320 6228

Konsultacje

• środa 9-11, czwartek 9-11, sem. letni 2023/2024

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Zainteresowania naukowe

• Przetwarzanie danych pomiarowych z wykorzystaniem cyfrowego przetwarzania sygnałów: metody, algorytmy, platformy sprzętowe i oprogramowanie; procesory sygnałowe i technika cyfrowa; metody transformacji czasowo-częstotliwościowych, precyzyjne metody analizy widma (metoda liniowej interpolacji dyskretnego przekształcenia Fouriera), metody analizy obrazów (dopasowanie elementów kołowych do modelu); metody analizy i przetwarzania danych w systemach energii odnawialnej.

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Najważniejsze publikacje z ostatnich lat

2022

• Matusiak A., Borkowski J., Mroczka J., Noniterative method for frequency estimation based on interpolated DFT with low-order harmonics elimination. Measurement (London). 196, art. 111241, s. 1-9.

2021

• Borkowski J., Mroczka J., Matusiak A., Kania D., Frequency estimation in interpolated discrete Fourier transform with generalized maximum sidelobe decay windowsfor the control of power. IEEE Transactions on Industrial Informatics 17(3), pp. 1614-1624.

2018

• Borkowski J., Kania D., Mroczka J., Comparison of sine-wave frequency estimation methods in respect of speed and accuracy for a few observed cycles distorted by noise and harmonics. Metrology and Measurement Systems 25(2). pp. 283-302.

2016

• Borkowski J., Kania D., Interpolated-DFT-based fast and accurate amplitude and phase estimation for the control of power, Metrology and Measurement Systems 23(1), pp. 13-26.

2014

• Borkowski J., Kania D., Mroczka J., Interpolated-DFT-based fast and accurate frequency estimation for the control of power, IEEE Transactions on Industrial Electronics 61(12), 6785974, pp. 7026-7034.
• Borkowski J., Kania D., Mroczka J.,Influence of A/D quantization in an interpolated DFT based system of power control with a small delay, Metrology and Measurement Systems 21(3), pp. 423-432.

2012

• Borkowski J., Systematic errors of the LIDFT method: Analytical form and verification by a Monte Carlo method, Metrology and Measurement Systems 19(4), pp. 673-684.

2010

• Borkowski J., Mroczka J., LIDFT method with classic data windows and zero padding in multifrequency signal analysis, Measurement: 43(10), pp. 1595-1602.

Publikacje w bazie DONA

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Wybrane publikacje
1	Artykuł 2022 Adam Matusiak, Józef Borkowski, Janusz Mroczka, Noniterative method for frequency estimation based on interpolated DFT with low-order harmonics elimination. Measurement (London). 2022, vol. 196, art. 111241, s. 1-9. ISSN: 0263-2241; 1873-412X Zasoby:DOISFX
2	Artykuł 2021 Józef Borkowski, Mirosław Szmajda, Janusz Mroczka, The influence of power network disturbances on short delayed estimation of fundamental frequency based on IpDFT method with GMSD windows. Energies. 2021, vol. 14, nr 20, art. 6465, s. 1-26. ISSN: 1996-1073 Zasoby:DOISFX
3	Artykuł 2021 Józef Borkowski, Janusz Mroczka, Adam Matusiak, Frequency estimation in interpolated discrete Fourier transform with generalized maximum sidelobe decay windowsfor the control of power. IEEE Transactions on Industrial Informatics. 2021, vol. 17, nr 3, s. 1614 - 1624. ISSN: 1551-3203; 1941-0050 Zasoby:DOISFX
4	Artykuł 2020 Kamila Organiściak, Józef Borkowski, Single-Ended quality measurement of a music content via convolutional recurrent neural networks. Metrology and Measurement Systems. 2020, vol. 27, nr 4, s. 721-733. ISSN: 0860-8229; 2300-1941 Zasoby:DOISFX
5	Referat konferencyjny 2019 Józef Borkowski, The voltage offset in the noised signal frequency estimation for a renewable energy system using generalized maximum sidelobe decay windows. W: 2019 International Conference on Computing, Electronics & Communications Engineering (iCCECE), London, UK, 22nd-23rd August, 2019 : proceedings / eds. Mahdi H. Miraz [i in.]. Danvers, MA : IEEE, cop. 2019. s. 40-44. ISBN: 978-1-7281-2138-3 Zasoby:DOI
6	Referat konferencyjny 2019 Józef Borkowski, Influence of harmonics on the interpolated DFT-based frequency estimation for the control of power in renewable energy systems using generalized maximum sidelobe decay windows. W: 13th IEEE International Conference on Power Electronics and Drive Systems (PEDS 2019) : Toulouse, France, 9-12 July, 2019. [Danvers, MA] : IEEE, cop. 2019. s. 1-4. ISBN: 978-1-5386-6499-5 Zasoby:DOIURL
7	Referat konferencyjny 2019 Józef Borkowski, Simulation comparison of frequency estimation methods applied for power control in renewable energy systems. W: 2019 16th International Conference on Synthesis, Modeling, Analysis and Simulation Methods and Applications to Circuit Design (SMACD) : 15-18 July, 2019, Lausanne, Switzerland : conference proceedings. Danvers, MA : IEEE, cop. 2019. s. 273-276. ISBN: 978-1-7281-1201-5; 978-1-7281-1200-8 Zasoby:DOI
8	Referat konferencyjny 2019 Józef Borkowski, Janusz Mroczka, Influence of noise on the interpolated DFT-based frequency estimation for the control of power using generalized maximum sidelobe decay windows. W: 2019 42nd International Conference on Telecommunications and Signal Processing (TSP), July 1-3, 2019, Budapest, Hungary. Danvers, MA : IEEE, cop. 2019. s. 269-272. ISBN: 978-1-7281-1865-9; 978-1-7281-1864-2 Zasoby:DOI
9	Referat konferencyjny 2019 Józef Borkowski, Adam Matusiak, Frequency tracking with novel interpolated-DFT-based method using generalized maximum sidelobes decay windows. W: 2019 42nd International Conference on Telecommunications and Signal Processing (TSP), July 1-3, 2019, Budapest, Hungary. Danvers, MA : IEEE, cop. 2019. s. 681-684. ISBN: 978-1-7281-1865-9; 978-1-7281-1864-2 Zasoby:DOI
10	Referat konferencyjny 2019 Józef Borkowski, Adam Matusiak, Dynamic characteristics of interpolated-DFT-based frequency estimation method with generalized maximum sidelobes decay windows. W: 2019 IEEE International Conference on Environment and Electrical Engineering and 2019 IEEE Industrial and Commercial Power Systems Europe (EEEIC 2019/I&CPS Europe), 11-14 June, 2019, Genoa, Italy : conference proceedings. Danvers, MA : IEEE, cop. 2019. s. 1-4. ISBN: 978-1-7281-0653-3; 978-1-7281-0652-6 Zasoby:DOIURL

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