ئه‌ندازیاریا بایومدیکال

ستافێ ئەکادیمی

June 11, 2026, 10:50 a.m.
فارس عصمت فضيل
فارس عصمت فضيل (دكتورا)
ماموستا
مامۆستا د چارەسەرکرنا ئیشاراتان و سیستم دا

ئه‌ندازیاریا بایومدیکال
كوليژا ئەندازیارى
زانکۆیا دهۆك
[email protected]
ORCID
Google Scholar

  • دکتۆرا د ئەندازیاریێ دا (Dr.-Ing.)، ئەندازیارییا زانستێن ژیانێ، زانکۆیا تێکنیشە هۆخشوولە میتلهێسن (THM) – زانکۆیا زانستێن کارپێکری، ئەڵمانيا، ٢٠٢١-٢٠٢٥.
  • ماستەر د ئەندازیارییا گەهاندنا ئەلیکترۆنی و کۆمپیوتەری دا، زانکۆیا نۆتینگهام (University of Nottingham)، شاهنشینا ئێکگرتی (بەریتانيا)، ٢٠١٣-٢٠١٤.
  • بەکالۆریۆس د ئەندازیارییا کارەبا و کۆمپیوتەری دا، زانکۆیا دهۆک، عیراق، ٢٠٠٧-٢٠١١.

فارس سەممان ل بەغدا، عیراق، ل سالا 1988 ژ دایک بوویە. باوەرنامەیا بەکالۆریۆسێ د بووارێ ئەندازیارییا کارەبێ و کۆمپیوتەری دا ژ زانکۆیا دهۆک، هەرێما کوردستانا-عیراقێ، ل سالا 2011 ب دەست خۆ ڤە ئینایە. خواندنا خۆ یا ماستەرێ د بووارێ ئەندازیارییا گەهاندنا ئەلیکترۆنی و کۆمپیوتەری دا ل زانکۆیا نۆتینگهام (University of Nottingham) ل نۆتینگهام، شاهنشینا ئێکگرتی (بەریتانیا) ب دوماهی ئینایە. ل سالا 2014 وەک هاریکارێ مامۆستایی پەیوەندی ب پشکا ئەندازیارییا کارەبێ و کۆمپیوتەری ل زانکۆیا دهۆک کریە. پاشان ل سالا 2019 هاتیە ڤەگوهاستن بۆ پشکا ئەندازیارییا بایومیدیکال (Biomedical Engineering) ل زانکۆیا دهۆک. باوەرنامەیا دکتۆرایێ د ئەندازیارییا بایومیدیکال دا ل کۆلیژا ئەندازیارییا زانستێن ژیانێ (LSE) ل زانکۆیا (THM) – زانکۆیا زانستێن کارپێکری ل غیسن، ئەڵمانیا، ب بلندترین پلەیا شەرەفێ (Summa Cum Laude) ب دەست خۆ ڤە ئینایە. خۆدیکرنێن وی یێن ڤەکۆلینێ د بوارێن ئەندازیاریيا پزیشکی یا حیاتی، چارەسەرکرنا ئیشاراتان (Signal Processing)، پاقژکرنا ئیشاراتێن زیندوو ژ دەنگەدەنگێ (denoising) ب رێکا Denoising Autoencoder، چارەسەرکرنا ئیشاراتێن زیندوو ب رێکا تورێن عەسەبی (Neural Networks)، نموونەسازییا تەنک (Sparse Modeling) بۆ ئیشاراتێن پزیشکی یێن حیاتی، و پاقژکرنا ئیشاراتێن زیندوو ب رێكا نموونەسازییا تەنک دانە. هەروەسا هەڤپشکی و کارەکێ چالاک دگەل ڤەکۆلەران د چەندین تاقمێن دی یێن ئەندازیارییا کارەبێ و کۆمپیوتەری دا هەیە.

  • ئیشارات و سیستم (قۆناغا بەکالۆریۆسێ) (Signal and System)
  • تەکنیکێن پێڤانا پزیشکی یا بایومیدیکال (قۆناغا بەکالۆریۆسێ) (Biomedical Measurement Techniques)
  • بازنێن کارەبێ (قۆناغا بەکالۆریۆسێ) (Electrical Circuit)

  • Participating in the 2nd International Summer School on Cyprus part of the master course of “Biomedical Engineering” of the module “Signal and Image processing in Medicine” (6 ECTS). (this program was Granted by DAAD).
  • Participating in the DAAD project “Bioniq- Bio/MedPhys” to visit university of applied science, THM, Giessen in the period 1st of October 2018 to the 31th of December 2018, working on my PhD proposal in the field of Biomedical Engineering.
  • Participate in the DAAD project “Sustainable Development of Biomedical Engineering in Northern of Iraq-SD-BIONIQ” to visit university of applied science, THM, Giessen in the period 1st of September 2019 to the 30th of November 2019, working on my PhD proposal in the field of Biomedical Engineering.
  • Developing Msc project “LOCALIZATION OF MONOPOLE AND DIPOLE SOURCE IN 3 DIMENSIONS” for the Msc students of university of applied science, THM, Giessen as a part of the DAAD project “Bioniq- Bio/MedPhys”.
  • Training on EEG recording in Azadi Hospital for three months since 27th of March 2019
  • Participating in Innovation Expo of Duhok Province Universities 2017 with project title “Adapted TV remote control using EOG”. This event was funded by European Union and implemented by UNDP.

البحث العلمي

1. Alfa, M., Samann, F., & Schanze, T. (2026). ML-CDAE: Multi-Lead Convolutional Denoising Autoencoder for Denoising 12-Lead ECG Signals. Signals, 7(1), 18. https://doi.org/10.3390/signals7010018
2. F. Samann and T. Schanze, “AE-DD: Autoencoder-Driven Dictionary with Matching Pursuit for Joint ECG Denoising, Compression, and Morphology Decomposition,” AI, vol. 6, no. 9, p. 234, Sep. 2025, doi: 10.3390/ai6090234. (Impact factor=5)
3. F. Samann, Towards Real-Time ECG Signal Denoising using Sparse and Shallow Running Denoising Autoencoder, Technische Hochschule Mittelhessen, 2025.
4. N. Busch, F. Samann, A. Neißner, M. Fiebich, and T. Schanze, “Denoising of low dose CT scans by means of Denoising Autoencoder,” Abstracts of the 58th Annual Meeting of the German Society of Biomedical Engineering, 2024.
5. A. Prächte, F. Samann, and T. Schanze, “Implementation of running denoising autoencoder (RunDAE) on Arduino for real-time denoising of ECG,” Abstracts of the 58th Annual Meeting of the German Society of Biomedical Engineering, 2024.
6. F. Samann, F. Hubich, T. Ott, and T. Schanze, “Automatisierungstechnik: Muscle fatigue detection based on sEMG signal using autocorrelation function and neural networks,” De Gruyter, 2024.
7. F. Samann and T. Schanze, “Denoising by spectral selections of SVD representations of Hankel matricificated data with application to PPG signals,” IFAC-PapersOnLine, vol. 58, no. 24, pp. 175–180, 2024.
8. F. Samann, F. Hubich, T. Ott, and T. Schanze, “Muscle fatigue detection based on sEMG signal using autocorrelation function and neural networks,” at - Automatisierungstechnik, vol. 72, no. 5, pp. 408–416, 2024.
9. F. Samann and T. Schanze, “RESEMBLING THE MORPHOLOGIES OF ECG SIGNALS USING REGULARIZED DENOISING AUTOENCODER,” Passer Journal of Basic and Applied Sciences, vol. 6 (Special Issue), pp. 341–351, 2024.
10. L. M. Meyer, F. Samann, and T. Schanze, “DualSort: online spike sorting with a running neural network,” Journal of Neural Engineering, vol. 20, no. 5, p. 056031, 2023. (Impact factor=4)
11. F. Samann and T. Schanze, “RunDAE model: Running denoising autoencoder models for denoising ECG signals,” Computers in Biology and Medicine, p. 107553, 2023. (Impact factor=7)
12. F. Samann, L. Meyer, and T. Schanze, “Removing noise and overlapping spikes from extracellular recordings using a regularized denoising autoencoder,” Current Directions in Biomedical Engineering, vol. 9, no. 1, pp. 279–282, 2023.
13. F. Samann and T. Schanze, “Multiple ECG segments denoising autoencoder model,” Biomedical Engineering/Biomedizinische Technik, vol. 68, no. 3, pp. 275–284, 2023. (Impact factor=0.9)
14. F. Samann and T. Schanze, “EMG based muscle fatigue detection using autocorrelation and k-means clustering,” Proceedings on Automation in Medical Engineering, vol. 2, no. 1, p. 739, 2023.
15. L. M. Meyer, T. Schanze, and F. Samann, “A single-hidden-layer neural network for the classification of spike-waveforms,” Proceedings on Automation in Medical Engineering, vol. 2, no. 1, p. 747, 2023.
16. B. Marwan, F. Samann, and T. Schanze, “Cleaning Noisy ECG based on the Signal Quality with Single and Multiple Hidden Layer Autoencoder,” 2022 2nd International Conference on Intelligent Cybernetics Technology, 2022.
17. B. Marwan, F. Samann, and T. Schanze, “Denoising of ECG with single and multiple hidden layer autoencoders,” Current Directions in Biomedical Engineering, vol. 8, no. 2, pp. 652–655, 2022.
18. F. Samann and T. Schanze, “Multiple parallel hidden layers autoencoder for denoising ECG signal,” Current Directions in Biomedical Engineering, vol. 8, no. 2, pp. 161–164, 2022.
19. F. Samann and T. Schanze, “Abstracts of the 2022 Joint Annual Conference of the Austrian (ÖGBMT), German (VDE DGBMT) and Swiss (SSBE) Societies for Biomedical Engineering,” Biomedical Engineering/Biomedizinische Technik, vol. 67, suppl. 1, pp. 1–580, 2022.
20. F. Samann and T. Schanze, “Entrauschen von EKG-Signalen anhand von Autoencodern mit hybriden verborgenen Neuronenschichten,” DGMP 2022 – 53. Jahrestagung der Deutschen Gesellschaft für Medizinische Physik, 2022.
21. F. Samann and T. Schanze, “Denoising biomedical signals via adaptive low-rank matrix representation by singular value decomposition using wavelets,” 2021 4th Int. Conf. on Bio-Engineering for Smart Technologies, 2021.
22. F. Samann and T. Schanze, “Finding an optimal dictionary of different wavelet types using sparse modeling to denoise ECG signal,” Current Directions in Biomedical Engineering, vol. 7, no. 2, pp. 125–128, 2021.
23. F. Samann and T. Schanze, “Use of a trained denoising autoencoder to estimate the noise level in the ECG,” Current Directions in Biomedical Engineering, vol. 7, no. 2, pp. 562–565, 2021.
24. F. Samann, S. A. Bamerni, J. A. Khorsheed, and A. K. Al-sulaifanie, “Adaptive Real-Time Wavelet Denoising Architecture Based on Feedback Control Loop,” Journal of Engineering Research, vol. 9 (ICRIE Special Issue), pp. 1–18, 2021.
25. F. Samann and T. Schanze, “On estimating the optimal autoencoder model for denoising ECG using Akaike Information Criterion,” AUTOMED - Automation in Medical Engineering, 2021.
26. R. Bassam and F. Samann, “Smart Parking System based on Improved OCR Model,” IOP Conf. Ser.: Materials Science and Engineering, vol. 978, no. 1, p. 012007, 2020.
27. M. Schubert, F. Samann, and T. Schanze, “An improved simple experimental setup for superimposed PPG signal separation,” Innovative digitale Verarbeitung bioelektrischer und -magnetischer Signale, 2020.
28. M. Schubert, F. Samann, and T. Schanze, “QRS triggered averaging for superimposed PPG separation,” Proc. on Automation in Medical Engineering, vol. 1, no. 1, p. 014, 2020.
29. M. Schubert, F. Samann, and T. Schanze, “Towards non-invasive fetal blood oxygen level acquisition: ECG-triggered separation of superimposed PPG,” 54th Annual Conference of the German Society for Biomedical Engineering, vol. 1, pp. 1–2, 2020.
30. F. Samann, A. Rausch, and T. Schanze, “Electrical Dipole Source Localization using Hybrid Least Squares Method in combination with ICA,” Current Directions in Biomedical Engineering, vol. 5, no. 1, pp. 361–364, 2019.
31. F. Samann and T. Schanze, “An efficient ECG denoising method using discrete wavelet with Savitzky-Golay filter,” Current Directions in Biomedical Engineering, vol. 5, no. 1, pp. 385–387, 2019.
32. F. E. Samann, “Real-time Liquid Level and color Detection system using Image Processing,” Academic Journal of Nawroz University (AJNU), vol. 7, no. 4, pp. 223–227, 2018.
33. F. E. Samann and M. S. Hadi, “HUMAN TO TELEVISION INTERFACE FOR DISABLED PEOPLE BASED ON EOG,” Journal of University of Duhok, vol. 21, no. 1, pp. 54–64, 2018.
34. F. E. Samann, “SIMPLE AND ROBUST EYE MOVEMENTS DETECTION METHOD,” Journal of Duhok University, vol. 20, no. 1, pp. 152–163, 2017.
35. F. E. Samann, “INTERCHANNEL AND CROSS GAIN CROSSTALK EFFECTS IN WDM SYSTEMS WITH SOAs,” Ph.D. thesis, University of Nottingham, UK.

  • چارەسەرکرنا ئیشاراتێن پزیشکی یێن بایومیدیکال (Biomedical signal processing)
  • پاقژکرنا هێلکاریا دل (ECG) ژ دەنگەدەنگێ (ECG denoising)
  • تورێن عەسەبی (Neural networks)
  • فێربوونا ئامێری د چاڤدێريیا ساخلەمیێ دا (Machine learning in healthcare)

سەرپەرشتێ هەڤپشک یێ نامەیێن ماستەرێ ل زانکۆیا

  1. Neural Networks for Spike Sorting Applications
  2. Noisy ECG Cleaning Using Single- and Multi-layer Autoencoders Based on Signal Quality
  3. ML-CDAE: Multi-lead Convolutional Denoising Autoencoder for 12-lead ECG Signal Denoising
  4. Modeling and Localization of Electrical Signal Sources Using an L1-Regularized Multi-Monopole Approach