عودة

 

الدكتور / محمد عاطف السيد عبدالعال
أستاذ مساعد بقسم الهندسة الكهربائية، كلية الهندسة، جامعة أسيوط
تفاصيل السيرة الذاتية
بيانات ال MIS دخول الإعضاء تواصل مع العضو نسخة للطباعة
تليفون المكتب 002-088-241-1054
البريد الالكترونى moh_atef@aun.edu.eg
moh.abdelaal@yahoo.com
الموقع الالكترونى https://www.researchgate.net/profile/Mohamed_Atef7
google scholar link http://scholar.google.com/citations?user=lJIB2yEAAAAJ&hl=en
  • دكتوراه فى Electrical Engineering ( Electronics and Communications ) ، Faculty of Electrical Engineering، Vienna University of Technology ، 2010
  • ماجستير فى الهندسة الكهربائية، كلية الهندسة، جامعة أسيوط، 2005
  • بكالوريوس فى الهندسة الكهربائية، كلية الهندسة، جامعة أسيوط، 2000
الدرجات العلمية :
  • أستاذ مساعد بقسم الهندسة الكهربائية، كلية الهندسة، جامعة أسيوط، 2016
  • مدرس بقسم الهندسة الكهربائية، كلية الهندسة، جامعة أسيوط، 2010
  • مدرس مساعد بقسم الهندسة الكهربائية، كلية الهندسة، جامعة اسيوط، 2005
  • معيد بقسم الهندسة الكهربائية، كلية الهندسة، جامعة اسيوط، 2000

المجالات البحثية:
Integrated Circuits , Optoelectronics , Bio-electronics

الابحاث :

1-Ahmed Atef, Mohamed Atef, Mohamed Abbas, Elsayed Esam M. Khaled, Guoxing Wang,, Fully integrated wide dynamic range optical receiver for Near Infrared Spectroscopy, Microelectronics Journal, Elsevier, pp. 92-97, pp. 92-97, https://www.sciencedirect.com/science/article/abs/pii/S0026269218307183, March, 2019
2-Binghui Lin, Mohamed Atef, Guoxing Wang, 14.85 µW Analog Front-End for Photoplethysmography Acquisition with 142-dBΩ Gain and 64.2-pArms Noise, Sensors, MDPI, vol.19, no.512, pp.1-13, https://www.mdpi.com/1424-8220/19/3/512, January, 2019
3-Guoxing Wang, Mohamed Atef, and Yong Lian, Towards a Continuous Noninvasive Cuffless Blood Pressure Monitoring System Using PPG: Systems and Circuits Review, IEEE Circuits and Systems Magazine (CASM), IEEE, vol.18, no.3. , pp.6-26, August, 2018
4-Yuting Hou, Khalil Yousef, Mohamed Atef, Guoxing Wang, Yong Lian, A 1-to-1kHz, 4.2-to-544-nW, Multi-level Comparator Based Level-Crossing ADC for IoT Applications , IEEE Transactions on Circuits and Systems II: Express Briefs, IEEE, vol.65, no.10, pp. 1390 - 1394, June, 2018
5-Ehab A. Hamed, Mohamed Atef and Mohamed Abbas. , A Low Power Programmable Gain Integrated Front-End for Electromyogram Signal Sensing, 25th International Conference Mixed Design of Integrated Circuits and Systems, IEEE, 103-108, https://www.mixdes.org/Mixdes3/, June, 2018
6-Yuting Hou , Jiali Qu , ZhenZhen Tian , Mohamed Atef , Khalil Yousef , Guoxing Wang Lian Young, A 61-nW Level-Crossing ADC with Adaptive Sampling for Biomedical Applications , IEEE Transactions on Circuits and Systems II: Express Briefs, IEEE, June, 2018
7-Mohamed Atef, Min Wang, Guoxing Wang, A Fully Integrated High-Sensitivity Wide Dynamic Range PPG Sensor With an Integrated Photodiode and an Automatic Dimming Control LED Driver, IEEE Sensors Journal , Vol. 18 - No. 2, pp. 652 – 659, January, 2018
8-Yuting Hou, Jiali Qu, Zhenzhen Tian, Mohamed Atef, Khalil Yousef, Yong Lian, Guoxing Wang, 60-nW Level-Crossing ADC with Adaptive Sampling for Biomedical Applications, 2018 ISSCC Student Research Preview (SRP), 2018
9-X. Luo, Y. Chen, M. Atef, G. Wang, A 44 Gbit/s Wide-dynamic Range and High-linearity Transimpedance Amplifier in 130 nm BiCMOS Technology, IEICE Transaction on Fundamentals of Electronics , Communications and Computer Sciences, , E101A(2), 438-440, 2018
10-Yuting Hou, Jiali Qu, Zhenzhen Tian, Mohamed Atef, Khalil Yousef, Yong Lian, Guoxing Wang, A 61-nW Level-Crossing ADC With Adaptive Sampling for Biomedical Applications , ISSCC Student Research Preview (SRP), , 2018
11-X. Luo, Y. Chen, M. Atef, G. Wang, A 44 Gbit/s Wide-dynamic Range and High-linearity Transimpedance Amplifier in 130 nm BiCMOS Technology , IEICE Transaction on Fundamentals of Electronics , Communications and Computer Sciences, E101A(2), pp. 438-440 , 2018
12-Z. Yan, M. Atef, G. Wang, D. Cui, M. Sawan, , Low-Noise 8-Channels Chopper-Stabilized EEG Acquisition System, 8th International IEEE EMBS Conference On Neural Engineering, Shanghai, China, May, 2017
13-Ehab A. Hamed, Mohamed Atef and Mohamed Abbas, An Ultralow-Power High-Gain Biopotential Amplifier for Electromyogram Signal Recording., Electronics, Communications and Computers (JAC-ECC), 2017 Japan-Africa Conference , IEEE, https://sites.google.com/a/ejust.kyushu-u.ac.jp/jac-ecc-2017/, December, 2017
البحث كاملا
14-Binghui Lin, Mohamed Atef, and Guoxing Wang, A Low-Power High-Sensitivity Analog Front-End for PPG Sensor, The 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC’17), Jeju Island, South Korea , 861 – 864, 2017
15-Zhengnan Yan, Mohamed Atef , and Guoxing Wang, Low-Noise High Input Impedance 8-Channels Chopper-Stabilized EEG Acquisition System, the 30th international IEEE System on Chip Conference (SOCC 2017), Munich, Germany , 51 – 55, 2017
16-Z. Yan, M. Atef, G. Wang, D. Cui, M. Sawan, Low-Noise 8-Channels Chopper-Stabilized EEG Acquisition System, 8th International IEEE EMBS Conference On Neural Engineering, 8th International IEEE EMBS Conference On Neural Engineering, Shanghai, China , 2017
17-A. Atef, M. Atef, M. Abbas, E. M. Khaled, D. Cui, M. Sawan, G. Wang, Wide Dynamic Range Integrated Optical Receiver for Near Infrared Spectroscopy, 8th International IEEE EMBS Conference On Neural Engineering, Shanghai, China, 2017
18-Ehab A. Hamed, Mohamed Atef, Mohamed Abbas, An Ultralow-power High-gain Biopotential Amplifier for Electromyogram Signal Recording, Japan-Africa Conference on Electronics, Communications and Computers (JAC-ECC), 33-66, 2017
19-Ehab A. Hamed, Mohamed Atef, Mohamed Abbas, R. R. Gharieb , Transferring Electromyogram Signal between Limbs, Fourth International Japan-Egypt Conference on Electronics, Communications and Computers (JEC-ECC) , IEEE, 141-144, https://sites.google.com/a/ejust.kyushu-u.ac.jp/jec-ecc-2016/, May, 2016
البحث كاملا
20-Mohamed Atef and Horst Zimmermann, Optoelectronic Circuits in Nanometer CMOS Technology, Springer International Publishing Switzerland, ISSN 1437-0387, pp. 240, http://www.springer.com/gp/book/9783319273365, 2016
البحث كاملا
21-Ahmed Atef , Mohamed Atef , Mohamed Abbas, and Elsayed Esam M. Khaled, 1.44 mW and 60 dB Dynamic Range Optical Receiver for Near Infrared Spectroscopy, The 28nd International Conference on Microelectronic (ICM2016), Cairo, Egypt, 21-24, 2016
22-35. Baizhong Zhou, Xunhua Guo, Mohamed Atef and Guoxing Wang., Hall Sensor System Design and Modeling for Current-Measurement in Power Meters, The 28nd International Conference on Microelectronic (ICM2016), Cairo, Egypt , 49-52, 2016
23-Bo liang, Kefeng Duan, Qingsong Xie, Mohamed Atef, Zhiliang Qian, Guoxing Wang and Yong Lian, Live Demonstration: A Support Vector Machine Based Hardware Platform for Blood Pressure Prediction, 2016 IEEE Biomedical Circuits and Systems Conference (BioCAS), 130-131, 2016
24-Mohamed Atef, Li Xiyan, Guoxing Wang, Yong Lian, PTT Based Continuous Time Non-invasive Blood Pressure System, IEEE International Midwest Symposium on Circuits and Systems (MWSCAS), pp.333-336, 2016
25-Diaa Abd-elrahman; Mohamed Atef, Guoxing Wang, 10 Gb/s 1.95 mW Active Cascode Transimpedance Amplifier for High Speed Optical Receivers, IEEE International Midwest Symposium on Circuits and Systems (MWSCAS), 775-778, 2016
26-Kefeng Duan, Zhiliang Qian, Mohamed Atef, Guoxing Wang, A Feature Exploration Methodology for Learning Based Cuffless Blood Pressure Measurement using Photoplethysmography, IEEE 38th Annual International Conference of the Engineering, in Medicine and Biology Society (EMBC), 6385- 6388, 2016
27-Ahmed Atef , Mohamed Atef, Mohamed Abbas , Elsayed Esam, High-Sensitivity Regulated Inverter Cascode Transimpedance Amplifier for Near Infrared Spectroscopy, Fourth International Japan-Egypt Conference on Electronics, Communications and Computers (JEC-ECC), 103- 106, 2016
28-Mohamed Atef, Ahmed Atef, Mohamed Abbas, Low-Power Transimpedance Amplifier for Near Infrared Spectroscopy, IEEE International Symposium on Circuits and Systems (ISCAS), 2423-2426, 2016
29-Abd-Elrahman, Diaa; Atef, Mohamed; Abbas, Mohamed; Abdelgawad, Mohamed , Current-reuse transimpedance amplifier with active inductor , ISSCS 2015 - International Symposium on Signals, Circuits and Systems , August, 2015
30-Mohamed Atef, Amplifier with a Compression stage for Wide Dynamic Range Optical Applications, Microelectronics Journal, Vol.46, No. 7, pp.593–597, http://www.sciencedirect.com/science/article/pii/S0026269215001032, June, 2015
31-Mohamed Atef, Ehab A. Hamed, Abdu-Allah Mahfouz, Implementation of Optical Distance Measurement Using Correlation-Based and Time Stretching Technique on Digital Signal Controller, The 32st National Radio Science Conference (NRSC2015) , 32nd, pp. 347-354, https://www.msa.edu.eg/msauniversity/events/academic-events/the-2015-32nd-national-radio-science-conference-nrsc-2015, April, 2015
البحث كاملا
32-Mohamed Atef, Regulated Cascode Transimpedance Amplifier Based on a Cascode Inverter Local Feedback, The 32st National Radio Science Conference (NRSC2015), April, 2015
33-Diaa Abd-Elrahman, Mohamed Atef, Mohamed Abbas, Mohamed Abdelgawad, Low Power Transimpedance Amplifier Using Current Reuse with Dual Feedback, IEEE Intl. Conference on Electronics, Circuits, & Systems (ICECS 2015), Cairo, 244-247, 2015
34-Mohamed Atef, Francisco Aznar, Stefan Schidl, Andreas Polzer, Wolfgang Gaberl, Horst Zimmermann , 8 Gbits/s inductorless transimpedance amplifier in 90 nm CMOS technology, Analog Integrated Circuits and Signal Processing , springer, Vol. 79-No.1, PP.27-36, http://link.springer.com/article/10.1007/s10470-013-0242-4, April, 2014
35-Mohamed Atef, Integrated Photodiodes in Nanometer CMOS, Electrical and Electronics Engineering: An International Journal (ELELIJ) , vol.3, no.2, , pp.141-160, wireilla.com/engg/eeeij/papers/3214elelij12.pdf, 2014
36-M. Atef, D. Abd-elrahman, 2.5 Gbit/s compact transimpedance amplifier using active inductor in 130nm CMOS technology, 21st International Conference on Mixed Design of Integrated Circuits & Systems (MIXDES), Poland , pp.103-107, http://ieeexplore.ieee.org/xpl/login.jsp?tp=&arnumber=6872165&url=http%3A%2F%2Fieeexplore.ieee.org%2Fxpls%2Fabs_all.jsp%3Farnumber%3D6872165, 2014
37-Mohamed Atef, High gain transimpedance amplifier with current mirror load, 21st International Conference on Mixed Design of Integrated Circuits & Systems (MIXDES),Poland , pp.220-223, http://ieeexplore.ieee.org/xpl/login.jsp?tp=&arnumber=6872189&url=http%3A%2F%2Fieeexplore.ieee.org%2Fxpls%2Fabs_all.jsp%3Farnumber%3D6872189, 2014
38-Mohamed Atef, Horst Zimmermann, Integrated equalizer for high-speed short-distance optical communication link, The 31st National Radio Science Conference (NRSC2014), pp.334-340, http://ieeexplore.ieee.org/xpl/login.jsp?tp=&arnumber=6835094&url=http%3A%2F%2Fieeexplore.ieee.org%2Fxpls%2Fabs_all.jsp%3Farnumber%3D6835094, 2014
39-Mohamed Atef and Horst Zimmermann, Optical Communication over POF Integrated Optical Receiver Technology, Springer-Verlag, Berlin, Heidelberg, ISBN 978-3-642-30387-6 , pp. 130, http://www.springer.com/physics/optics+%26+lasers/book/978-3-642-30387-6, 2013
البحث كاملا
40-M. Atef, and H. Zimmermann, Low-power 10Gb/s Inductorless Inverter Based Common-Drain Active Feedback Transimpedance Amplifier in 40nm CMOS, Analog Integrated Circuits and Signal Processing , vol. 76, no.3, pp. 367-376, http://link.springer.com/article/10.1007%2Fs10470-013-0117-8#page-1, 2013
41-M. Atef, A. Polzer, and H. Zimmermann, Avalanche Double Photodiode in 40nm Standard CMOS Technology, IEEE Journal of Quantum Electronics, vol.49.no.3, pp.350-356, 2013
42-M. Atef, A. Polzer, and H. Zimmermann, High-Speed Photodiodes in 40nm Standard CMOS Technology , Sensors & Actuators: A. Physical, vol.193, pp.213-219, 2013
43-M. Atef, Horst Zimmermann, Optical Receiver Using Noise Cancelling with an Integrated Photodiode in 40nm CMOS Technology, IEEE Transactions on Circuits and Systems, vol.60,no.7, pp.1929-1936, 2013
44-M. Atef, Hong Chen and H. Zimmermann, 10Gb/s Inverter Based Cascode Transimpedance Amplifier in 40nm CMOS Technology, 16th IEEE Symposium on Design and Diagnostics of Electronic Circuits and Systems (DDECS2013), Karlovy Vary, Czech Republic, pp.72-75, 2013
45-M. Atef, R. Swoboda and H. Zimmermann, A Gigabit Fully Integrated Plastic Optical Fiber Receiver for a RCLED Source, 15th IEEE Symposium on Design and Diagnostics of Electronic Circuits and Systems (DDECS2012), Talline, Estonia , pp.74-78, 2012
46-M. Atef and H. Zimmermann , 2.5 Gbit/s Transimpedance Amplifier Using Noise Cancelling for Optical Receivers, IEEE International Symposium on Circuits and Systems (ISCAS2012),Seoul, Korea , pp.1740 - 1743, 2012
47-M. Atef and H. Zimmermann, 10 Gbit/s 2mW Inductorless Transimpedance Amplifier , IEEE International Symposium on Circuits and Systems (ISCAS2012), Seoul, South Korea, pp. 1728 -1731 , 2012
48-M. Atef, R. Swoboda, H. Zimmermann , 1.25Gbits Over 50 m Step-Index Plastic Optical Fiber Using a Fully Integrated Optical Receiver With an Integrated Equalizer, Lightwave Technology , vol.30, no.1 , pp.118-122, 2012
49-M. Atef, R. Swoboda, H. Zimmermann, Real Time 1.25Gbit s Transmission over 50m SI-POF Using a Green Laser Diode, IEEE Photonics , pp.1331-1333, 2012
50-M. Atef, R. Swoboda, H. Zimmermann, 250Mbit s over 100m SI-POF with RCLED source using Integrated Post-Equalizer, Electronics Letters, vol.48, no.12, pp.718-720, 2012
51-M. Atef, R. Swoboda, H. Zimmermann, 250Mbit/s over 100m SI-POF with RCLED source using Integrated Post-Equalizer, Electronics Letters, vol.48, no.12, , pp.718-720, 2012
52-M. Atef, R. Swoboda, H. Zimmermann, Real Time 1.25Gbit/s Transmission over 50m SI-POF Using a Green Laser Diode, IEEE Photonics Technology Letters,, pp.1331-1333, 2012
53-M. Atef, R. Swoboda and H. Zimmermann, 1 Gbit/s transmission over step-index plastic optical fiber using an optical receiver with an integrated equalizer, Optics Communications, vol. 284, 2011
54-M.Atef , R.Swoboda, H.Zimmermann, An Integrated Optical Receiver for 2.5Gbit/s Using 4-PAM Signaling, The 22nd International Conference on Microelectronic (ICM2010), Cairo, Egypt, December, 2010
55-M.Atef , R.Swoboda, H.Zimmermann, 170Mbit/s Multilevel Transmission over 115m Standard Step-Index Plastic Optical Fiber Using an Integrated Optical Receiver, Journal of Optics Communications, 2010
56-M.Atef , R.Swoboda, H.Zimmermann, An optical receiver for eight-level data communication over step index plastic optical fiber., Journal of Optics Communications, Vol.283,No.11, pp.2350-2352, 2010
57-M.Atef , W.Gaberl, R.Swoboda, H.Zimmermann, An Integrated Optical Receiver for Multilevel Data Communication over Large Core Step Index Plastic Optical Fiber, Analog Integrated Circuits and Signal Processing Journal, 2010
58-M.Atef , R.Swoboda, H.Zimmermann, Optical Receiver for Multicarrier Modulation in Short-reach Communication, Electronics Letters , Vol.46 , No.3, pp.225-226, 2010
59-M.Atef , R.Swoboda, H.Zimmermann, Giga-bit optical receiver for plastic optical fibre, Optics Communications, Journal of Optics Communications, Vol.283, No.3, pp.391-395, 2010
60-M.Atef , R.Swoboda, H.Zimmermann, Gigabit Transmission over PMMA Step-Index Plastic Optical Fiber Using an Optical Receiver for Multilevel Communication, 36th European Conference and Exhibition on Optical Communication, ECOC2010,Torino, Italy, pp.1351-1353, 2010
61-M.Atef , W.Gaberl, R.Swoboda, H.Zimmermann, An Integrated Optical Receiver for Multilevel Data Communication over Plastic Optical Fiberh, 27th Norchip 2009, Trondheim, NORWAY, November, 2009
62-M.Atef , R.Swoboda, H.Zimmermann, Optical Receiver with Large-area Photodiode for Multilevel Modulation, Optical and Quantum Electronics Journal, Vol. 41, No. 2, pp.131-135, 2009
63-M.Atef , R.Swoboda, H.Zimmermann, Optical Receiver Front-end for Multilevel Signalling, Electronics Letters, Vol. 45, No. 2, pp.121-122, 2009
64-M.Atef , W.Gaberl, R.Swoboda, H.Zimmermann, 4-PAM Monolithic Optical Receiver, Optics in Computing(ORT),Vienna, 2009
65-M.Atef , W.Gaberl, R.Swoboda, H.Zimmermann, Multilevel Signaling Optical Receiver for High-Speed Transmission over Large-Core Step-Index Plastic Optical Fibre, Austrochip 2009,Autria,Graz , 2009
66-M.Atef , R.Swoboda, H.Zimmermann, An Automatic Gain Control Front-End Optical Receiver for Multi-Level Data Transmission, 26th Norchip , Tallinn, ESTONIA, November, 2008
67-M.Atef , R.Swoboda, H.Zimmermann, A Front-End Optical Receiver for Multi-Level Data Transmission, Microelectronics Conference ME2008, Vienna, Austria, pp.246-249, October, 2008
68-P. Hazdra, J. Oswald, M. Atef, K. Kuldova, A. Hospodkova, E. Hulicius and J. Pangrac, InAs/GaAs quantum dot structures covered by InGaAs strain reducing layer characterized by photomodulated reflectanceb, Materials Science and Engineering Journal: B, Vol. 147, No. 2, pp.175-178, 2008
69-M. Atef, P. Hazdra, V.Komarnitskyy, J. Oswald, K. Kuldova, A. Hospodkova, E. Hulicius and J. Pangrac , InAs/GaAs quantum dot structures covered by InGaAs strain reducing layer characterized by photomodulated reflectance, Journal of Acta Metallurgica Slovaca Spec.Issue, Vol. 13, No. 5, pp.99-104, 2007
70-M.Atef , Electronic States Simulation of InAs/GaAs Quantum Dots from MOVPE, In Poster 2007, Prague, CTU, Faculty of Electrical Engineering, pp.EI3-1-EI3-5 , 2007
71-M. Atef, P. Hazdra, V.Komarnitskyy, J. Oswald, K. Kuldova, A. Hospodkova, E. Hulicius and J. Pangrac, Simulation of Electronic States in InAs/GaAs Quantum Dots, In Electronic Devices and Systems-IMAPS CS International Conference 2007,Brno,Czech Repuiblic, pp.11-16, 2007
72-P. Hazdra, M. Atef, V.Komarnitskyy, J. Oswald, K. Kuldova, A. Hospodkova, E. Hulicius and J. Pangrac, Study of InAs/GaAs Quantum Dots Grown by LP-MOVPE., In Abstract Booklet of the Int. Conf. NANO´07,Czech Republic ,Brno, pp.36, 2007
73-P. Hazdra, J. Oswald, M.Atef, J. Voves,, K. Kuldova, A. Hospodkova, E. Hulicius and J. Pangrac, InAs/GaAs Quantum Dot Structures Covered by InGaAs Strain Reducing Layer Characterised by Photomodulated Reflectance, In E-MRS Spring Meeting 2007 - Book of Abstracts,France, Strasbourg, pp.715, 2007
74-P.Hazdra, M. Atef, V. Komarnitskyy,J. Oswald, K.Kuldova, K. Kuldova, A. Hospodkova, E. Hulicius and J. Pangrac , Characterisation and Simulation of Electronic States in MOVPE Grown InAs/GaAs Quantum Dots, Proceedings of Workshop 2008 , Prague : Czech Technical University in Prague , pp.208-209, 2007
75-M.A.Sayed and M.Atef , Study of Tunneling Current Through Ultra-thin Gate Oxide MOSFET and its Effect on CMOS Circuits , JOURNAL OF ENGINEERING SCIENCES , April, 2005
الاشراف على رسائل الماجستير و الدكتوراه :
1- إيهاب علي محمد حامد, استشعار وإعادة توليد الإشارة الكهروعضلية لإعادة تأهيل العضلات, ماجستير, 30-10-2018
المشرفون : محمد عباس عبدالراضي أستاذ مساعد بقسم الهندسة الكهربائية– جامعة أسيوط محمد عاطف السيد أستاذ مساعد بقسم الهندسة الكهربائية– جامعة أسيوط
2- أحمد عاطف عبد اللاه على, الدوائر الضوئية الالكترونية المتكاملة ذات المدى الديناميكي الواسع العالية الحساسية لاستشعار الاشارات الطبية الحيوية, ماجستير, 01-10-2017
المشرفون : أ.د. السيد عصام محمد خالد استاذ متفرغ بكلية الهندسة- قسم كهرباء – شعبة الالكترونيات والاتصالات د. محمد عباس عبد الراضي استاذ مساعد بكلية الهندسة – قسم كهرباء شعبة الالكترونيات والاتصالات د. محمد عاطف السيد استاذ مساعد بكلية الهندسة – قسم كهربا
3- ضياءالدين محمود ابراهيم عبدالرحمن, المستقبلات الضوئية عالية السرعة باستخدام تقنية CMOS النانومترية, ماجستير, 01-03-2015
المشرفون : أ.د. محمد عبدالجواد محمد أستاذ متفرغ بقسم الهندسة الكهربائية– جامعة أسيوط د. محمد عباس عبدالراضى استاذ مساعد بقسم الهندسة الكهربائية– جامعة أسيوط د. محمد عاطف السيد استاذ مساعد بقسم الهندسة الكهربائية– جامعة أسيوط
الجوائز :
1 - جائزة الدولة التشجيعية فى العلوم الهندسية عام 2018.
2 - Senior Member IEEE فى العلوم الهندسية عام 2012.
3 - TOP 100 Engineers in 2012 from International Bibliographical Center IBC فى العلوم الهندسية عام 2012.
4 - MAN OF THE YEAR award from American Biographical Institute ABI عام 2012.
5 - Listed in Who is Who in the World فى العلوم الهندسية عام 2012.
6 - Best paper in E-MRS Spring Meeting فى العلوم الهندسية عام 2007.

عدد المقرارات4 مقرر
E125
الكترونيات 1 ----كلية الهندسة قسم الهندسة الكهربائية
EE322
الكترونيات 3 ----كلية الهندسة قسم الهندسة الكهربائية

تصميم وتخطيط الدوائر المتكامله ----كلية الهندسة قسم الهندسة الكهربائية

test1 ----كلية الهندسة قسم الهندسة الكهربائية