Pracownicy

Orcid: https://orcid.org/0000-0001-9432-1291

Sort BIO:

• Master’s degree in electronics and telecommunication specialization telecommunication in 2002 (thesis: Numerical modeling of the electromagnetic fields in arbitrary configurations of conducting bodies and wires).
• PhD thesis: Efficiency improvement of the hybrid MM-PO method in wideband analysis of the radiating structures (supervisor Andrzej Karwowski, PhD, DSc) 2007.
• Assistant professor (since 2007).

Scientific interest:

• Electromagnetic compatibility (EMC).
• Microwave and antenna technique.
• Design of the printed circuit boards (PCB) according to EMC, signal integrity (SI) and power integrity (PI).

Selected achievements:

• Author and co-author of over 70 scientific publications and 6 patents.
• Co-chair of IEEE EMC Society Polish Chapter (2018-19).
• Reviewer of Journal of Electromagnetic Waves and Applications Progress in Electromagnetic Research.
• Reviewer and member of program committee of 19th International Wroclaw Symposium and Exhibition on Electromagnetic Compatibility, EMC 2008.

Research projects:

• 2017-2018: GPU-Accelerated Broadband Method-of-Moments Approach for Large-Scale Electromagnetic Problems Involving PEC Objects, NVIDIA founded project
• Co-investigator in NCBiR project on development of techniques to improve the reliability of measurements of bioelectric signals in a real electromagnetic environment (2015-2017),
• Co-investigator in European Cooperation in the Field of Scientific and Technical Research, COST IC0603 Antenna Systems and Sensors for information Society Technologies (ASSIST) (2009-2011),
• Co-investigator in research project Nr N N517 467934 on fast hybrid computational electromagnetics methods (2008-2011),
• Investigator in research project Nr 3 T11D 008 29 on improvement of efficiency of the hybrid MM-PO method in wideband analysis of radiating structures (2005-2007).

Teaching accomplishments:

• Supervisor of over 20 MSc and over a dozen BSc thesis.
• Preparation of new lectures, development of new laboratory stands and new courses in Polish and English, among others:
  • Electromagnetic compatibility,
  • Electromagnetic fields and waves,
  • CAD (computer-aided design) tools,
  • Laboratory and project of microwave circuits.

Awards and distinctions:

• Distinction in the national competition for the best PhD thesis in the field of radiocommunication and multimedia techniques, 2008.
• Winner of young scientists’ competition for the paper on broadband analysis of antennas with a transmission mode of propagation placed on a conductive platform presented during KKRRiT conference, 2004.
• Third prize of the AP/AES/MTT/ Joint Chapter Poland Section IEEE competition for the best MSc thesis, 2004.
• Rector’s awards: I degree for teaching activity (14.10.2011), III degree for scientific activity (14.10.2009), III degree for organizational activities (14.10.2009), II degree for za scientific activity (14.10.2008).

Selected research papers:

• Magnuski M, Wójcik D, Surma M, Noga A, A compact widely tunable bandpass filter dedicated to preselectors, Electronics – Switz, 2021 vol. 10 iss. 18 s. 1-16,
• D. Wójcik, M. Surma, A. Noga, M. Magnuski, On the Design of Dual-Polarised Linear Antenna Arrays with Enhanced Port-to-Port Isolation, Sensors, vol. 20, iss. 2, 6105.
• D. Wójcik, M. Surma, A. Noga, M. Magnuski, High port-to-port isolation dual-polarized antenna array dedicated for full-duplex base stations, IEEE Antennas Wirel. Propag. Lett., vol. 19, iss. 7, 2020, pp. 1098-1102.
• A. Karwowski, A. Noga, T. Topa, Computationally efficient technique for wide-band analysis of grid-like spatial shields for protection against LEMP effects, ACES Journal, vol. 32, no. 1, Jan. 2017, pp. 87-92.
• A. Karwowski, A. Noga, T. Topa, An Efficient Framework for Analysis of Wire-Grid Shielding Structures over a Broad Frequency Range, 2016. Radioengineering, vol. 25, no. 4, pp. 629-636.
• T. Topa, A. Noga, A. Karwowski, Adapting MoM with RWG Basis Functions to GPU Technology Using CUDA, IEEE Antennas Wireless Propag. Lett., vol. 10, 2011, pp. 480-483.
• T. Topa, A. Karwowski, A. Noga, Using GPU with CUDA to accelerate MoM-based electromagnetic simulation of wire-grid models, IEEE Antennas Wireless Propag. Lett., vol. 10, 2011, pp. 342-345.
• T. Topa, A. Noga, D. Wójcik, Analysis of Complex Radiating Structures by Hybrid FDTD/MoM-PO Method, PIERS Online, vol. 5, no. 8, 2009, pp. 711-715.
• A. Karwowski, A. Noga, On the interpolation of the frequency variations of the MoM-PO impedance matrix over a wide bandwidth, Microwave and Optical Technology Letters, vol. 50, Mar. 2008, pp. 738-741.
• A. Karwowski, A. Noga, Fast MM-PO-based numerical modelling technique for wide-band analysis of antennas near conducting objects, Electronics Letters, vol. 43, Apr. 2007, pp. 486-487.