Ahmad Mohammad Ahmad Faza | University of Stavanger

Contact

Telephone: 51831446

Location: Adresse: Universitetet i Stavanger Postboks 8600 Forus 4036 Stavanger Leveringsadresse: Kitty Kiellands hus Rennebergstien 30 4021 Stavanger

Department

Faculty of Science and Technology

Department of Energy and Petroleum Engineering

About me

Researcher in Advanced Dithering Techniques for Power Electronics and Control.

Erasmus Mundus Scholar in Smart Systems Integration

Teaching Assistant (Power Electronics & Control, Analog & Digital Communications)

Hardware Design Engineer (PCBA layout and schematic upgrade for Network Adapter cards)

Follow me online

Publications

Vitenskapelige publikasjoner

Ahmad Faza'; John Leth; Arnfinn Aas Eielsen (2025) Optimised Spectral Density Shaping of Quantisation Error Using Adaptive Dithering. I: European Signal Processing Conference. ISSN 2076-1465. Volum 2025. s.2707-2711. DOI: 10.23919/EUSIPCO63237.2025.11226510

Jonathan Sæthre Ege; Bikash Adhikari; Ahmad Mohammad Ahmad Faza; Trond Ytterdal; Arnfinn Aas Eielsen (2025) Improving the accuracy of digital-to-analogue converters. I: Measurement: Sensors. Online ISSN 2665-9174. Volum 38. DOI: 10.1016/j.measen.2024.101419

Ahmad Mohammad Ahmad Faza; John Leth; Arnfinn Aas Eielsen (2024) Spectral Density Shaping of Quantisation Error Using Dithering. I: European Signal Processing Conference. ISSN 2076-1465. s.2582-2586. DOI: 10.23919/EUSIPCO63174.2024.10715260

Ahmad Mohammad Ahmad Faza; John Leth; Arnfinn Aas Eielsen (2023) Criterion for sufficiently large dither amplitude to mitigate non-linear glitches. I: Silvia Mastellone, Proceedings of the 2023 IEEE Conference on Control Technology and Applications (CCTA). IEEE (Institute of Electrical and Electronics Engineers). ISBN 9798350335446. s.970-977. DOI: 10.1109/CCTA54093.2023.10253012

Ahmad Mohammad Ahmad Faza; John Leth; Arnfinn Aas Eielsen (2023) Mitigating non-linear DAC glitches using dither in closed-loop nano-positioning applications. I: . ACC 2023, 2023 American Control Conference (ACC 2023). IEEE (Institute of Electrical and Electronics Engineers). ISBN 9798350328066. s.685-691. DOI: 10.23919/ACC55779.2023.10156386

Noa van Rijt; Ahmad Mohammad Ahmad Faza; Tom Oomen; Arnfinn Aas Eielsen (2023) Learning control applied to a digital-to-analogue converter. I: Silvia Mastellone, Proceedings of the 2023 IEEE Conference on Control Technology and Applications (CCTA). IEEE (Institute of Electrical and Electronics Engineers). ISBN 9798350335446. s.91-96. DOI: 10.1109/CCTA54093.2023.10252330

Formidling

Ahmad Faza'; John Leth; Arnfinn Aas Eielsen (2025) Optimised Spectral Density Shaping of Quantisation Error Using Adaptive Dithering. The 33rd European Signal Processing Conference (EUSIPCO 2025); 2025-09-07 - 2025-09-11. DOI: 10.31224/4642

Ahmad Mohammad Ahmad Faza; John Leth; Arnfinn Aas Eielsen (2024) Spectral Density Shaping of Quantisation Error Using Dithering. 2024 32nd European Signal Processing Conference (EUSIPCO); 2024-08-26 - 2024-08-30.

Jonathan Sæthre Ege; Bikash Adhikari; Ahmad Mohammad Ahmad Faza; Trond Ytterdal; Arnfinn Aas Eielsen (2024) Improving the accuracy of digital-to-analogue converters. The IMEKO 2024 XXIV World Congress; 2024-08-26 - 2024-08-29.

Ahmad Mohammad Ahmad Faza; John Leth; Arnfinn Aas Eielsen (2023) Mitigating Non-linear DAC Glitches Using Dither in Closed-loop Nano-positioning Applications. 2023 American Control Conference (ACC); 2023-05-31 - 2023-06-02.

Noa van Rijt; Ahmad Mohammad Ahmad Faza; Tom Oomen; Arnfinn Aas Eielsen (2023) Learning Control Applied to a Digital-to-analogue Converter. 2023 IEEE Conference on Control Technology and Applications (CCTA); 2023-08-16 - 2023-08-18.

Ahmad Mohammad Ahmad Faza; John Leth; Arnfinn Aas Eielsen (2023) Criterion for Sufficiently Large Dither Amplitude to Mitigate Non-linear Glitches. 2023 IEEE Conference on Control Technology and Applications (CCTA); 2023-08-16 - 2023-08-18.

Source: Nasjonalt vitenarkiv