Ahmed Haroun – Self powered sensors – Best Researcher Award

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Ahmed Haroun – Self powered sensors – Best Researcher Award

Dr. Ahmed Haroun distinguished academic and researcher in the field  Self Powered Sensors. His impactful research extends beyond the confines of academia, as evidenced by his tenure as a Senior Research Fellow at the National University of Singapore. Here, he contributed significantly to the development of meso-scale offshore wave energy harvesters and delved into the realm of triboelectric nanogenerators for self-powering ocean wireless sensor networks. Additionally, his prior role as a Research Fellow at NUS involved pioneering work on dielectric elastomers for electromechanical energy conversion, showcasing his versatility and expertise in interdisciplinary research.

🌐 Professional Profiles

Educations📚📚📚

He holds a distinguished academic background in mechanical engineering, culminating in a Ph.D. from the University of Tokyo, where he maintained a flawless GPA of 4.0/4.0. His doctoral research delved into the intricacies of electromagnetic vibration energy harvesting, specifically focusing on combined free/impact motion for efficient operation at low frequencies. Prior to this, he earned a Master of Science degree with honors from Cairo University, showcasing his prowess in modeling and simulating multibody mechanical systems with clearance joints. His educational journey also includes an intensive non-degree course in practical technology for robots and mechatronics from Japan’s KITA institute, where he acquired a diverse skill set encompassing sensor technology, motion control, PLC, and more. As an undergraduate at Cairo University, he distinguished himself as the top-ranked student in his department, graduating with honors and spearheading projects such as the design and manufacturing of a 2D CNC plasma cutting machine.

PROFESSIONAL EXPERIENCE

He boasts an extensive professional journey marked by significant contributions to academia and cutting-edge research. Currently serving as a Senior Research Fellow at the Sant’Anna School of Advanced Studies within the Biorobotics Institute/Soft Mechatronics Lab, he spearheads the development of soft robotic end-effectors for delicate produce harvesting, focusing particularly on the SoftGrip project. His role involves the intricate task of crafting soft and semi-soft robotic wrists tailored for automated mushroom outrooting.

Simultaneously, as an Assistant Professor at Cairo University, he excels in both teaching and research endeavors. He diligently imparts knowledge in various domains of mechanical design and production engineering, shaping the minds of future engineers. His teaching responsibilities encompass a wide array of subjects, including Mechanical Vibrations, Basic Robot Technologies, and Engineering Measurements. Moreover, he actively supervises undergraduate and master’s students, guiding them through innovative research projects that tackle pressing engineering challenges, such as low-frequency energy harvesting and motion energy harvesting for wireless sensors.

 

During his earlier years at Cairo University, he served as a Demonstrator and Assistant Lecturer, playing a pivotal role in teaching fundamental courses while also actively engaging in research activities. His dedication to both education and research underscores his commitment to advancing the field of mechanical engineering and robotics, making him a highly respected figure in academia and beyond.

RESEARCH FUNDING

The JSPS-STDF research grant: This is a collaborative research grant between Cairo University and
University of Tokyo funded by JSPS (Japan), and STDF (Egypt) to do research on “developing an
offshore wave energy harvesting system for self-powering of ocean sensor networks”. (I had to withdraw
the application of this grant in order to apply for no-pay leave from Cairo University and Join Sant’Anna
School in Italy)

RESEARCH INTERESTS

Motion/vibration energy harvesting; Active and passive vibration control; Self-powered motion sensing;
Sensors and actuators; Nonlinear dynamics; Soft robotics; Mechatronics and automation

Awards

Throughout his illustrious academic and professional journey, he has garnered numerous accolades and awards, underscoring his exceptional talent and dedication to his field. Notably, he earned a prestigious MEXT scholarship for his Ph.D. studies in Mechanical Engineering, endorsed by the esteemed University of Tokyo. His outstanding achievements were further recognized with inclusion in the 30th Pearl Anniversary edition of Who’s Who in the World in 2013, a testament to his remarkable contributions to academia. Among his notable accolades is the Engineer Ibrahim Fawzy Award for the best master’s thesis in System Dynamics and Control, bestowed upon him by Cairo University in 2012.

His pursuit of excellence extends beyond academia, as evidenced by his receipt of the Engineer Reda Hamza and Engineer Mohamed Ibrahim Awards from Cairo University in 2009. Additionally, he has been honored with the Distinguished Student Award by Schlumberger on multiple occasions, highlighting his exceptional academic performance and leadership qualities. His remarkable academic achievements have been consistently recognized with scholarships for academic distinction throughout his undergraduate years at Cairo University, culminating in the receipt of distinguished silver and golden medals from the Faculty of Engineering.

Furthermore, his commitment to practical learning and international collaboration is evident through his participation in prestigious programs such as the practical course study scholarship in Practical Technology for Robots and Mechatronics, organized by KITA and funded by JICA in Japan. Additionally, he completed a practical traineeship for foreign students of technical sciences in Poland, demonstrating his global perspective and eagerness to expand his horizons. Collectively, these accolades and experiences underscore his status as a distinguished scholar and engineer, poised to make significant contributions to his field and beyond.

📝🔬Publications📝🔬

Chabum Lee – Semiconductor – Industry Impact Award

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Prof dr. Chabum Lee distinguished academic and researcher in the field   Semiconductor.  He has conducted research on piezoelectric polymer poling processes using additive manufacturing techniques, water contaminant sensors utilizing magnetic/optical spectroscopy, and impedance spectroscopy for in-process manufacturing process controls.

In terms of academic positions, he has served as both an Associate Professor and Assistant Professor at Texas A&M University, focusing on semiconductor metrology and high-temperature atomic force microscopy, among other topics. He has also co-founded LABPISODE LLC., where he has contributed to the development of high-precision scanners and engineering lab modules, particularly in the semiconductor microscopy domain.

Furthermore, he has held positions as a Visiting Researcher at the National Institute of Standards and Technology (NIST), concentrating on prognostics and health monitoring of robotic manufacturing systems and machine learning for sensor self-calibration. Earlier in his career, he served as an Assistant Professor at Tennessee Tech University and as an Assistant Research Professor at the University of South Carolina, where he worked on dimensional measurement, sensor development, and nanomanufacturing for various engineering applications.

 

🌐 Professional Profiles

Educations📚📚📚

He earned his Bachelor of Science in Mechanical Engineering from Chung-Ang University in Seoul, South Korea, in February 2006. Following this, he pursued his Master of Science in Mechatronics at the Gwangju Institute of Science and Technology, also in South Korea, completing his degree in February 2008. Subsequently, he continued his academic journey at the same institution, earning his Ph.D. in Mechatronics in February 2012.

 

Research Interest

He has extensive research experience in various fields, particularly in the realm of mechanical engineering and semiconductor technology. His expertise encompasses semiconductor metrology for photomask, pellicle, wafer, and via inspection, as well as intelligent spindle monitoring for machining processes. He has also worked on fiber optics for optical freeform surface measurement, edge topography measurement for semiconductor lithography, and material-laser interaction in laser-assisted machining processes.

🏆🏆HONORS AND AWARDS🏆🏆

He has received numerous awards and recognitions for his outstanding contributions to the field of mechanical engineering and precision technology. These accolades include the 2022 Emerging Leaders 2022 award from the Institute of Physics (IOP) publication, Surface Topography: Metrology and Properties. In 2020, he was honored with the prestigious Blackall Machine Tool and Gage Award by the American Society of Mechanical Engineers (ASME).

Furthermore, he received the Alumni Award from the Gwangju Institute of Science and Technology in 2019, recognizing his achievements and contributions to the academic community. His research excellence was acknowledged with the Best Research Award at the American Society for Precision Engineering Conference in 2017, as well as the Kinslow Research Award and the Research and Economic Development Award from Tennessee Tech University in the same year.

Earlier in his career, he was distinguished with the Best Award of Graduation in 2012 from the Gwangju Institute of Science and Technology, along with the Best Award for Excellence in Research from the Korea Institute of Machinery & Materials. Additionally, he received the Best Paper Award from the Korean Society for Precision Engineering in 2012, further affirming his significant contributions to the field.

WORK EXPERIENCE 

He has engaged in various synergistic activities that complement his research and academic endeavors. As an Associate Editor, he has contributed to three prestigious journals: the International Journal of Precision Engineering and Manufacturing since 2018, the Journal of Manufacturing and Materials Processing since 2020, and the International Conference on Micro- and Nano-devices Enabled by R2R Manufacturing since 2021. Additionally, he has served as an Editor in Special Topics for two journals: the Journal of Manufacturing Materials and Processes (focused on Machining Processes) and the ASME Journal of Manufacturing Science and Engineering (focused on Semiconductor Manufacturing).

His active involvement in academic memberships includes ASPE (American Society for Precision Engineering) since 2009, ASME (American Society of Mechanical Engineers) since 2020, KSPE (Korean Society for Precision Engineering) since 2006, and ASEE (American Society for Engineering Education) from 2021 to 2023.

Moreover, he has significantly contributed to the academic community as a peer-reviewer for numerous journals and papers spanning various disciplines such as manufacturing engineering, measurement, optics, and materials science.

Dr. Lee has also played key roles in conference activities, serving on technical program committees for esteemed conferences such as the American Society for Precision Engineering, International Conference on Material Strength and Applied Mechanics, Sensors and Actuators, and others.

In terms of proposal review activities, he has participated in reviewing proposals for prestigious funding agencies and programs such as the NSF Advanced Manufacturing Program, NSF SBIR Program, ACS (American Chemical Society), and the National Research Foundation of Korea.

Furthermore, he has been actively engaged in service roles within his academic and departmental communities, including participation in committees, coordination of courses, and advisory roles for student organizations.

In his teaching endeavors, he has imparted his knowledge and expertise to students at Texas A&M University and Tennessee Technological University, covering courses on precision machine tools, engineering laboratory work, capstone design, mechanical measurements, numerical methods, and more.

Book Chapter 

ChaBum Lee, Large-range nano-scanning devices based on optical sensing technology, Book
chapter, Advanced Mechatronics and MEMS Devices II, Springer 2017: 10.1007/978-3-319-
32180-6_22 2017.

Conferences

Dr. ChaBum Lee has been actively engaged in presenting his research findings at various prestigious conferences and symposiums worldwide. His presentations cover a wide range of topics, including metrology, inspection, machining processes, additive manufacturing, and material characterization. Notably, he has been invited to deliver talks at several international symposiums, showcasing his expertise in via metrology and inspection for advanced electronics packaging.

At the 21st International Symposium on Microelectronics and Packaging in October 2023 in Busan, Korea, Dr. Lee presented on “Via Metrology and Inspection for Advanced Electronics Packaging” as an invited speaker. He also delivered an invited talk on “Wafer-Level Metrology and Inspection for Advanced Electronics Packaging” at the International Symposium on Measurement Technology and Intelligent Instrument 2023 in September 2023 in Seoul, Korea.

Furthermore, Dr. Lee has contributed to numerous conferences in the USA, presenting research papers and findings. For instance, he presented on “A Fringe Pattern Analysis Technique for Photomask Line-Edge-Roughness Characterization” at the ASME 2023 18th International Manufacturing Science and Engineering Conference in June 2023 in New Brunswick, NJ. Additionally, he co-authored presentations on topics such as “Curved-edge diffraction fringe pattern analysis for wafer edge metrology and inspection” and “Metallurgical property profiling of machined surface layer for microstructural prediction in subtractive and additive manufacturing” at various conferences, demonstrating his multidisciplinary expertise.

Dr. Lee’s active participation in conferences reflects his commitment to sharing his research findings, exchanging knowledge with peers, and contributing to advancements in precision engineering, manufacturing science, and related fields.

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