Mousa Abdollahvand | Antenna engineering | Best Researcher Award

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Dr. Mousa Abdollahvand | Antenna engineering | Best Researcher Award

Assistant Professor atMohaghegh Ardabili University, Iran

Mousa Abdollahvand Yajloo, born on 11 September 1984 in Aslandooz, Iran, holds an M.Sc. in Telecommunication Engineering from Shahed University, Tehran, and a Ph.D. in Electrical Engineering from Tarbiat Modares University, Tehran. His primary research interests include frequency selective surfaces (FSS), reconfigurable antennas, RF MEMS, and microwave passive components.

Yajloo is affiliated with prestigious research groups, including the Progress in Electromagnetic Research (PIER), IEEE MTT, and ISTE Springer, contributing as a reviewer. His academic work spans multiple international journals and conferences, with key publications focusing on UWB antennas, frequency band-notch characteristics, and Ka-band reflectarrays. He has also gained experience as a research visitor at Universitaria Politechnical de Madrid (UPM), Spain, where he further developed his expertise in antenna and RF circuit design.

Publication Profile

scholar

Education

Ph.D. in Electrical Engineering (Fields and Waves, Telecommunication), Tarbiat Modares University, Tehran, Iran. Thesis: “Design and Fabrication of Reconfigurable Reflectarray Antenna with Mutual Coupling Reduction.”M.Sc. in Electrical Engineering (Fields and Waves, Telecommunication), Shahed University, Tehran, Iran. Thesis: “Design & Fabrication of Microstrip-Feed Monopole Antenna for UWB Applications.”

Professional Experience

Contributed to projects on the measurement of electromagnetism parameters in the microwave band and the size reduction of microstrip antennas using metamaterials.Notable seminars on topics like Frequency Selective Surfaces and Active Reflectarray Antennas.

Publicationย  Top Notes

  • Compact Dual Band-Notched Printed Monopole Antenna for UWB Application
    • Published In: IEEE Antennas and Wireless Propagation Letters
    • Cited By: 211
    • Year: 2010
    • Summary: This paper presents a dual band-notched monopole antenna designed for ultra-wideband (UWB) applications, enhancing the frequency range while minimizing interference.
  • A 20/30 GHz Reflectarray Backed by FSS for Shared Aperture Ku/Ka-Band Satellite Communication Antennas
    • Published In: IEEE Antennas and Wireless Propagation Letters
    • Cited By: 43
    • Year: 2020
    • Summary: The study discusses a dual-frequency reflectarray backed by a frequency-selective surface (FSS) for improved performance in satellite communication systems.
  • Planar Triangular Monopole Antenna with Multioctave Bandwidth
    • Published In: Microwave and Optical Technology Letters
    • Cited By: 20
    • Year: 2011
    • Summary: This research introduces a planar triangular monopole antenna capable of operating over multiple octaves, showcasing its versatility.
  • A Compact UWB Printed Antenna with Bandwidth Enhancement for In-body Microwave Imaging Applications
    • Published In: Progress In Electromagnetics Research C
    • Cited By: 16
    • Year: 2014
    • Summary: The work presents a compact printed antenna designed for in-body imaging, focusing on bandwidth enhancement to support medical applications.
  • Compact Double-Fed Dual Annular Ring Printed Monopole Antenna for UWB Application
    • Published In: Journal of Electromagnetic Waves and Applications
    • Cited By: 15
    • Year: 2009
    • Summary: This article details a dual annular ring antenna structure optimized for UWB applications, emphasizing compactness and performance.
  • Compact Band-Rejection Printed Monopole Antenna for UWB Application
    • Published In: IEICE Electronics Express
    • Cited By: 14
    • Year: 2011
    • Summary: The design of a band-rejection monopole antenna tailored for UWB applications is discussed, highlighting its capability to suppress undesired frequency bands.
  • Design and Demonstration of a Tri-band Frequency Selective Surface for Space Applications in X, K, and Ka Bands
    • Published In: Microwave and Optical Technology Letters
    • Cited By: 11
    • Year: 2020
    • Summary: This paper focuses on a frequency-selective surface designed for use in space applications across multiple bands, demonstrating its operational effectiveness.
  • Single-Layer Dual-Frequency Reflectarray for Ka-band Antennas
    • Published In: 2016 10th European Conference on Antennas and Propagation (EuCAP)
    • Cited By: 11
    • Year: 2016
    • Summary: The research presents a dual-frequency reflectarray antenna with a single-layer design optimized for Ka-band communication.
  • Novel Modified Monopole Antenna with Band-Notch Characteristic for UWB Application
    • Published In: IEICE Electronics Express
    • Cited By: 10
    • Year: 2010
    • Summary: This study introduces a modified monopole antenna featuring a band-notch characteristic, improving UWB application performance.
  • Reconfigurable FSS Based on PIN Diodes for Shared-Aperture X/Ka-Band Antennas
    • Published In: 15th European Conference on Antennas and Propagation (EuCAP)
    • Cited By: 8
    • Year: 2021
    • Summary: The paper discusses a reconfigurable frequency-selective surface utilizing PIN diodes, aimed at enhancing performance in shared-aperture antenna systems.

Conclusion

Mousa Abdollahvand Yajloo is a highly qualified candidate for the Best Researcher Award, supported by his strong educational background, significant research contributions, and active role in the academic community. While there are opportunities for him to enhance his impact through broader applications of his work and increased visibility, his strengths strongly position him as a leader in his field. Recognizing his efforts with this award would not only acknowledge his accomplishments but also inspire further innovation in telecommunications and related disciplines.

Bernd Bachert | Korrosionsschutz | Best Researcher Award

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Dr.ย  DHBW Mosbach, Germany

With a robust academic background in Mechanical Engineering, including a Doctorate from Darmstadt University of Technology, this individual has amassed extensive experience in academia and industry. They have served as a professor, dean, and director across various institutions, playing a pivotal role in developing and accrediting numerous engineering study programs. Their expertise extends to fluid mechanics, thermodynamics, and materials science. They also lead research in mechanical engineering and renewable energy, contributing significantly to education and innovation. As CEO of IRATEC GmbH, they combine academic rigor with practical industry insights, making them a highly accomplished professional in their field.

Professional Profiles:

Scopus

Education ๐ŸŽ“

February 1982 – June 1987: Secondary School Neckargemรผnd Qualification: GCSE August 1987 – February 1991: Training at Eltro GmbH, Heidelberg
Qualification: Precision Mechanic August 1991 – June 1992: Johannes-Gutenberg-Schule, Heidelberg Qualification: Technical Diploma (Fachhochschulreife) September 1992 – January 1997: University of Applied Sciences Mannheim, Faculty of Mechanical Engineering Qualification: Graduate Engineer in Mechanical Engineering (FH) October 1997 – April 2000: Darmstadt University of Technology, Faculty of Mechanical Engineering Qualification: Graduate Engineer in Mechanical Engineering June 2000 – December 2003: Doctoral Thesis at Darmstadt University of Technology, Faculty of Mechanical Engineering Qualification: Doctor of Mechanical Engineering (Dr.-Ing.)

Work Experience ๐Ÿ’ผ

February 1991 – August 1991: Wolfgang Bortz Zerspanungstechnik GmbH Function: Programming of CNC Machines January 1997 – June 1999: Assistant Professor at BFZ Nรผrnberg January 1997 – December 1997: KDK Kalibrierdienst Kopp GmbH (Calibration Service) Function: Handling of problems in quality assurance and quality management October 1997 – April 2000: Assistant Professor at Abendakademie Mannheim and DaimlerChrysler Training Center Mannheim Lecture: Fluid Mechanics

Evaluation of the Candidate for the Best Researcher Award

Strengths:

  1. Extensive Academic Background:
    • The candidate has a solid educational foundation in mechanical engineering, with qualifications ranging from a Technical Diploma to a Doctorate in Mechanical Engineering (Dr.-Ing.). This extensive academic background supports their credibility and expertise in the field.
  2. Diverse Work Experience:
    • The candidate has a wealth of experience across various roles, including positions as an assistant professor, director, professor, and head of departments. Their roles have spanned multiple institutions and responsibilities, indicating a strong capacity for leadership and innovation in both academia and industry.
  3. Leadership and Management Skills:
    • The candidate has held significant leadership positions, such as Director of the Heidelberg Institute for Applied Research and Development, Professor and Dean at SRH University, and Head of Mechanical Engineering at DHBW Mosbach. These roles highlight their ability to lead and manage academic and research initiatives effectively.
  4. Contributions to Education:
    • The candidate has been instrumental in developing and accrediting various study programs, including Bachelor’s and Master’s degrees in Mechanical Engineering and Industrial Engineering. Their work in creating didactical training and education programs for national and international partners showcases their dedication to advancing education in engineering.
  5. Research Contributions:
    • The candidate has engaged in several research projects in areas such as Mechanical Engineering, Water Power Engineering, and Dual Education. Their authorship of various scientific publications further underscores their contributions to research and knowledge dissemination.
  6. International Experience and Collaboration:
    • As the Head of the International Office at DHBW Mosbach, the candidate has demonstrated a commitment to fostering international collaborations and expanding the global reach of their institution.
  7. Industry Engagement:
    • The candidate’s part-time role as CEO of IRATEC GmbH, coupled with their experience in consulting and renewable energy engineering, illustrates a strong connection between their academic work and practical, real-world applications.

Areas for Improvement:

  1. Focused Research Output:
    • While the candidate has a broad range of experience, a more focused research output in a specific area of mechanical engineering might strengthen their candidacy for a Best Researcher Award. Concentrating on one niche could lead to more impactful publications and a stronger reputation in that domain.
  2. Innovation and Patents:
    • The candidate’s profile could be further enhanced by showcasing any patents or innovative technologies they may have developed. Highlighting these achievements would emphasize their contributions to the advancement of mechanical engineering.
  3. Recent Research Activity:
    • Emphasizing more recent and cutting-edge research activities would demonstrate continued relevance and engagement with current trends in mechanical engineering. If recent high-impact publications or projects are not prominent, focusing on these could be beneficial.

 

โœ๏ธPublications Top Note :

Time-dependent measurements of cavitation damage
Authors: Osterman, A., Bachert, B., Sirok, B., Dular, M.
Journal: Wear, 2009, 266(9-10), pp. 945โ€“951
Citations: 29

Comparison of different methods for the evaluation of cavitation damaged surfaces
Authors: Bachert, B., Ludwig, G., Stoffel, B., Baumgarten, S.
Conference: Proceedings of the American Society of Mechanical Engineers Fluids Engineering Division Summer Conference, 2005, 2, pp. 553โ€“560, FEDSM2005-77368
Citations: 1

Comparison of different methods for the evaluation of cavitation damaged surfaces
Authors: Bachert, B., Stoffel, B., Ludwig, G., Baumgarten, S.
Conference: Proceedings of 2005 ASME Fluids Engineering Division Summer Meeting, FEDSM2005, 2005, pp. 2111โ€“2118
Citations: 7

Relationship between cavitation structures and cavitation damage
Authors: Dular, M., Bachert, B., Stoffel, B., ล irok, B.
Journal: Wear, 2004, 257(11), pp. 1176โ€“1184
Citations: 249

Experimental investigations concerning erosive aggressiveness of cavitation at different test configurations
Authors: Bachert, B., Dular, M., Baumgarten, S., Ludwig, G., Stoffel, B.
Conference: Proceedings of the ASME Heat Transfer/Fluids Engineering Summer Conference 2004, HT/FED 2004, 3, pp. 733โ€“743, HT-FED04-56597
Citations: 5

Experimental investigations concerning influences on cavitation inception at an axial test pump
Authors: Bachert, B., Brunn, B., Stoffel, B.
Conference: Proceedings of the ASME/JSME Joint Fluids Engineering Conference, 2003, 2 A, pp. 249โ€“256
Citations: 5

The influence of cavitation structures on the erosion of a symmetrical hydrofoil in a cavitation tunnel
Authors: ล irok, B., Dular, M., Novak, M., Ludwig, G., Bachert, B.
Journal: Strojniski Vestnik/Journal of Mechanical Engineering, 2002, 48(7), pp. 368โ€“378
Citations: 13

Conclusion:

The candidate is a strong contender for the Best Researcher Award due to their extensive academic qualifications, leadership experience, and contributions to education and research. Their background in mechanical engineering is complemented by significant roles in academia and industry, making them a well-rounded and influential figure in the field. To enhance their candidacy, they could focus on a more specialized area of research, highlight any innovative contributions, and ensure their recent research activities are at the forefront of their application.

Jingfei Yin | high performance machining | Best Researcher Award

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Assoc Dr.ย  Nanjing university of Aeronautics and Astronautics, china

Dr. Jingfei Yin is an Associate Professor at Nanjing University of Aeronautics and Astronautics with a Ph.D. from Dalian University of Technology. His research focuses on high-efficiency and precision machining of hard-to-machine materials, high-speed machining, and laser detection of subsurface damage. He has led or participated in over 10 national and provincial projects, published more than 20 academic papers, holds six patents, and has over 10 patents in progress. Dr. Yin is an editorial member of several high-impact journals and a senior member of the Chinese Mechanical Engineering Society. He is recognized for his pioneering work in ultrasonic-assisted drilling and subsurface damage detection.

 

Professional Profiles:

Scopus

๐ŸŽ“ Academic and Professional Background

Dr. Jingfei Yin earned his PhD from Dalian University of Technology, under the supervision of Prof. Bi Zhang (CIRP Fellow). Currently, he serves as an Associate Professor at Nanjing University of Aeronautics and Astronautics. His research spans high-efficiency and precision machining of hard-to-machine materials, high-speed machining, and laser detection of subsurface damage. He has led or contributed to over 10 national and provincial projects, including those funded by the National Natural Science Foundation and the National Sci. & Tech. Major Project. Dr. Yin has published over 20 academic papers and is an invited reviewer for several high-level journals.

๐Ÿš€ Research and Innovations:

๐Ÿ›  Completed/Ongoing Research Projects:Completed three projects funded by the China Postdoctoral Foundation and Jiangsu Province Postdoctoral Foundation.Currently managing five ongoing projects from the National Natural Science Foundation of China, The Science Center for Gas Turbine, and Nanjing University of Aeronautics and Astronautics.๐Ÿ“Š Citation Index: 12๐Ÿ— Consultancy/Industry Projects: Two industry projects.๐Ÿ“š Books Published (ISBN): None.๐Ÿ”‘ Patents Published/Under Process:Published six patents with more than 10 patents under process.๐Ÿ“ Journals Published (SCI, Scopus, etc.): Over 20 articles.

๐Ÿ“ฐ Editorial Appointments:

Early editorial member of the International Journal of Hydromechatronics (JIF: 5.3), Nanotechnology and Precision Engineering (JIF: 3.5), and two other Chinese journals (SCIE indexed).

๐ŸŽ“ Professional Memberships:

Senior member of the Chinese Mechanical Engineering Society and a member of the Chinese Society of Aeronautics and Astronautics.

๐Ÿ”ฌ Areas of Research:

High-efficiency and precision machining of hard-to-machine materials, high-speed machining, and laser detection of subsurface damage.

๐ŸŒŸ Contributions

Pioneered the mechanical machining of high-frequency ultrasonic-assisted drilling, making submillimeter holes in superhard ceramic matrix composites. Efficiency is elevated up to 10 times compared to current laser machining.Discovered the โ€œskin effectโ€ of subsurface damage distribution in materials subjected to high-speed machining, where damage depth decreases with increasing machining speed.Developed a novel non-destructive method of polarized laser scattering for detecting subsurface damage in materials with a sensitivity as high as 0.1 ฮผm in depth, using electromagnetic scattering theory to clarify the interaction between laser polarization and subsurface damages.

โœ๏ธ Self-Declaration:

I authenticate that to the best of my knowledge, the information given in this form is correct and complete. If at any time, I am found to have concealed any material information, my application shall be liable to be summarily terminated without notice. I have read the terms and conditions and other policies of the Awards and agree to them.

Dr. Jingfei Yinโ€™s Research for the Best Researcher Award

Strengths for the Award:

  1. Innovative Research Contributions: Dr. Jingfei Yin has made significant contributions to the field of precision machining, particularly in the high-efficiency machining of hard-to-machine materials. His work on high-frequency ultrasonic-assisted drilling, which improves the efficiency of creating submillimeter holes in ceramic matrix composites by tenfold compared to current laser machining methods, is groundbreaking. This demonstrates his ability to push the boundaries of existing technologies.
  2. Expertise in Subsurface Damage Detection: Dr. Yin’s research on the “skin effect” of subsurface damage distribution in high-speed machining and the interaction between laser polarization and subsurface damage highlights his deep understanding of the intricate processes involved in machining. His development of a novel non-destructive method for detecting subsurface damage with high sensitivity is a testament to his innovative approach to solving complex problems in material science.
  3. Leadership in National and Provincial Projects: Dr. Yin has successfully led and participated in more than ten national and provincial research projects, including those funded by the National Natural Science Foundation and the National Science & Technology Major Project. His leadership in these projects underlines his capability to manage large-scale research initiatives and contribute valuable insights to the field.
  4. Scholarly Contributions: With over 20 academic papers published in reputable journals and six patents already published, Dr. Yin’s scholarly output is commendable. His work is recognized and cited by peers, as indicated by his citation index of 12, further affirming his influence in the field of precision machining.
  5. Editorial and Peer-Review Roles: Serving as an editorial member for international journals like the International Journal of Hydromechatronics and Nanotechnology and Precision Engineering, Dr. Yin is well-respected in the academic community. His role in these journals showcases his expertise and his commitment to advancing research in his areas of specialization.

Areas for Improvement:

  1. Collaborations: While Dr. Yin has demonstrated substantial individual achievements, expanding his collaborative efforts, both nationally and internationally, could further enhance his research impact. Engaging in interdisciplinary collaborations or partnerships with industry could open new avenues for research and practical applications of his work.
  2. Publication in High-Impact Journals: Although Dr. Yin has published extensively, further increasing the number of publications in higher-impact journals would bolster his academic profile. Targeting top-tier journals in the fields of material science and precision engineering could help in gaining wider recognition for his work.
  3. Expansion of Research Areas: Dr. Yin’s current research focus is highly specialized, which is a strength, but expanding into related areas such as smart manufacturing, additive manufacturing, or automation in machining could diversify his research portfolio and potentially lead to more groundbreaking discoveries.

 

โœ๏ธPublications Top Note :

High-Performance Grinding of Ceramic Matrix Composites

Journal: Nanotechnology and Precision Engineering

Year: 2024

Citations: 0

Machinability of Submillimeter Holes in Ceramic Matrix Composites by High-Frequency Ultrasonic Vibration-Assisted Drilling

Journal: Journal of Materials Processing Technology

Year: 2024

Citations: 1

Experimental Study of Single Grain Grinding for SiCf/SiC Ceramic Matrix Composites

Journal: Zhongguo Jixie Gongcheng/China Mechanical Engineering

Year: 2022

Citations: 4

Rational Discussion on Material Removal Mechanisms and Machining Damage of Hard and Brittle Materials

Journal: Jixie Gongcheng Xuebao/Journal of Mechanical Engineering

Year: 2022

Citations: 5

Feasibility of Polarized Laser Scattering in Detecting the Grinding-Induced Subsurface Damage in SiCf/SiC Ceramic Matrix Composite

Journal: Composite Structures

Year: 2022

Citations: 8

Sensitivity of Polarized Laser Scattering Detection to Subsurface Damage in Ground Silicon Wafers

Journal: Materials Science in Semiconductor Processing

Year: 2022

Citations: 2

Influence of Alumina Abrasive Tool Wear on Ground Surface Characteristics and Corrosion Properties of K444 Nickel-Based Superalloy

Journal: Chinese Journal of Aeronautics

Year: 2022

Citations: 10

Generation Mechanism Modeling of Surface Topography in Tangential Ultrasonic Vibration-Assisted Grinding with Green Silicon Carbide Abrasive Wheel

Journal: Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture

Year: 2022

Citations: 10

Edge Chipping Characteristics in Grinding SiCf/SiC Composite

Journal: Ceramics International

Year: 2022

Citations: 15

Depolarization of Surface Scattering in Polarized Laser Scattering Detection for Machined Silicon Wafers

Journal: Precision Engineering

Year: 2022

Citations: 7

Conclusion:

Dr. Jingfei Yin is a highly qualified candidate for the Best Researcher Award. His innovative contributions to the field of high-performance and precision machining, particularly his pioneering work on ultrasonic-assisted drilling and subsurface damage detection, position him as a leader in his field. While there are opportunities for expanding his collaborative efforts and diversifying his research areas, his existing accomplishments make him a strong contender for the award. His research not only advances the scientific understanding of machining processes but also has practical implications for improving efficiency and quality in manufacturing.

Abdellatif TALBI | Etalonnage | Best Researcher Award

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Dr. Abdellatif TALBI | ย Etalonnage | Best Researcher Award

ย Dr. CNESTEN, Morocco

Dr. Abdellatif TALBI is a distinguished researcher and educator with a strong background in physical sciences and engineering. Dr. Abdellatif TALBI obtained a PhD from Cadi Ayyad University, focusing on dosimetry and calibration within the Laboratory of Physics and Nuclear Techniques. With significant professional experience at the National Center for Energy, Sciences, and Nuclear Techniques (CNESTEN), Dr. [Your Name] leads research projects and has held multiple teaching roles, guiding students in subjects like biophysics, nuclear physics, and statistics. Dr.Abdellatif TALBI has contributed to various fields through internships and training courses in nuclear medicine, oncology, industrial automation, and more, along with publications in peer-reviewed international journals.

 

Professional Profiles:

Orcid

University Course ๐Ÿ“š

.2014-2020: Graduated with a PhD in Physical Sciences and Engineering from the Center for Doctoral Studies (DAC), Cadi Ayyad University (UCA) / Laboratory of Physics and Nuclear Techniques (LPTN) / Semlalia Faculty of Sciences of Marrakech (FSSM), with very honorable mention.๐Ÿ… 2011-2014: State Engineer in Industrial Engineering from Moulay Ismail University (IMU) / Faculty of Sciences and Techniques of Errachidia (FSTE), Grade B.๐ŸŽ“ 2007-2011: Diploma of University Studies in Science and Technology (DEUST), Option: Physical/Mathematics, Computer Science, Physics (MIP), Faculty of Sciences and Techniques of Errachidia (FSTE), Mention AB.๐Ÿ“– 2006-2007: Baccalaureate in Experimental Science, Ibn Tahir High School, Errachidia, Mention AB.

Professional Experience ๐Ÿ”ฌ

Researcher in Dosimetry and Calibration (Since 02/12/2021) at the National Center for Energy, Sciences, and Nuclear Techniques (CNESTEN) in Maamoura, Kenitra.Conduct research in dosimetry and calibration.Lead research projects within the Safety and Security department.๐Ÿฅ Training Course (02/19/2021 to 04/19/2021) at the University Hospital Center (CHU) Mohamed VI Marrakech, Department of Oncology, Radiotherapy of the Oncology and Hematology Center (COH).๐Ÿ” Internship Observation (23/11/2020 to 23/12/2020) at the Analysis and Characterization Center (CAC), Impedance Measurement Laboratory (dielectric measurements) at Semlalia Faculty of Sciences of Marrakech (FSSM).Visited Laboratories: X-Ray Diffraction, Scanning Electron Microscopy, Nuclear Magnetic Resonance, HPLC, CPG.โš•๏ธ Internship Observation (03/07/2018 to 03/08/2018) at the University Hospital Center (CHU) Mohamed VI Marrakech, Service of Nuclear Medicine of the Center for Oncology and Hematology (COH).๐Ÿ› ๏ธ Training Course (03/01 to 03/02/2015) at the Guemassa Mining Company (CMG), Site Daraa Sfer, Marrakech.Subject: “Insurance of the stock of zero-breakage consumables.”๐Ÿญ End of Study Internship (04/01 to 07/21/2014) at the Office Chรฉrifien des Phosphates (OCP), Site of Khouribga.Subject: “Critical Study of Failure Modes of Bulldozers type D11T and Reliability Action Plan for these Bulls.”๐Ÿ”ง Technical Internship (07/01 to 09/13/2013) at the Company MECOMAR, Industrial district, Ain Sebaa, Casablanca.Mission: Follow-up of electromechanical repairs within the after-sales service (SAP).โš™๏ธ Internship Observation (08/01 to 09/03/2012) at the Company SIEMENS โ€“ Casablanca.Subject: โ€œAutomation of an industrial line with six conveyors.โ€๐Ÿ’จ Internship Observation (03/07 to 29/07/2012) at the National Office of Hydrocarbons and Mines (ONHYM) – Rabat.Subject: “Study of an ATLAS COPCO air compressor and improvement of performance in dry conditions.”๐Ÿ› ๏ธ Internship Observation (03/02 to 03/03/2009) at the Imitating Metallurgical Society โ€“ Tinghir, Ouarzazate, at the Menerai processing plant.Mission: Follow-up of repair and maintenance activities of electromechanical equipment.

Teaching Activities

Permanent Professor (2017-2021) at Higher School of Management and Applied Computer Technology (ESMA) – Marrakech.Taught courses in Statistics, Logistics Management, Project Management, Matrix Algebra, Analysis, Forecasting and Inventory Management, Supply Chain Management, IT Project Management, and Stochastic Processes and Simulation.๐Ÿ‘จโ€๐Ÿซ Faculty of Medicine and Pharmacy-Marrakech (2017-2021)Conducted Practical Work in Biophysics, focusing on Radioactivity and Radioprotection.๐Ÿ“š Faculty of Sciences Semlalia-Marrakech (2015-2021)Conducted Practical Work in Physical Optics, Thermodynamics, MATLAB Programming, Basic Electronics, Nuclear Physics, and Analytical Mechanics and Vibrations.

Management ๐Ÿ‘ฉโ€๐ŸŽ“

Supervision of End-of-Study Projects (2017-2019) at Faculty of Sciences Semlalia-Marrakech.Supervised projects on the study of radioactivity in clays and medicines and their health impacts.

Scope of Skills ๐Ÿ’ป

Industrial Computing, Power Electronics, Signal Processing, Instrumentation. ๐Ÿ“Š Tools and Quality Management: Brainstorming, Ichikawa Diagram, Pareto Method (20/80), 5M. ๐Ÿ“ˆ Scheduling, Supply Chain, Lean Manufacturing, Lean Six Sigma. ๐Ÿ“‰ Bivariate and Multivariate analyses of statistical data. ๐Ÿ–ฅ๏ธ Mastery of analysis and statistical processing software: SPSS and OriginLab. โš–๏ธ Mastery of quality control techniques, calibrations. ๐Ÿ—‚๏ธ Management and communication adapted to project management. โ˜ข๏ธ Dosimetry, Detection, and Radiation-Matter Interactions. ๐Ÿ”ฌ Physics and Nuclear Techniques. ๐Ÿ‘จโ€๐Ÿซ Teaching and supervising students and trainees in Physics.

โœ๏ธPublications Top Note :

“Establishment of beam qualities for medical applications (mammography and CT) in the gamma and X calibration laboratory of CNESTEN according to EN 61267 standards”

Applied Radiation and Isotopes, 2024-07

DOI: 10.1016/j.apradiso.2024.111325

Contributors: A. Talbi, T. Zidouz, A. Abarane, A. Mekkioui, A. Allach, M. Zaryah, M. El. Harchaoui

“Determination of CR-39 and LR-115 Type II Mean Critical Angle of Etching Using a New Monte Carlo Code”

Journal of Nuclear Engineering and Radiation Science, 2021-07-01

DOI: 10.1115/1.4049343

Part of ISSN: 2332-8983, 2332-8975

“Study of Alpha and Beta Radioactivity of Clay Originating from Radionuclides Belonging to the 238U and 232Th Families: Doses to the Skin of Potters”

Health Physics, 2021-02

DOI: 10.1097/hp.0000000000001298

Part of ISSN: 1538-5159, 0017-9078

“Measurement of radon, thoron and their daughters in the air of marble factories and resulting alpha-radiation doses to the lung of workers”

Environmental Geochemistry and Health, 2019-10

DOI: 10.1007/s10653-019-00276-9

Part of ISSN: 0269-4042, 1573-2983