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Dr. Mostafa Elsayed| Intelligent Control System| Best Paper Award
Professional Profiles:
Citations – 15
h-index – 2
i10-index – 0
Education:
Dr. Mostafa Elsayed is a highly accomplished individual with a strong educational background and significant expertise in the field of Mechanical Engineering, specifically in production. He earned his Ph.D. in Mechanical Engineering (Production) from Benha University, Egypt, in 2016. His doctoral research focused on “Real-Time Acoustics Autonomous Robot Control,” showcasing his commitment to cutting-edge advancements in the field. Prior to his Ph.D., Dr. Elsayed completed his M.Sc. in Mechanical Engineering (Production) at Benha University in 2011, where his research delved into the application of genetic algorithms for the control of variable displacement piston pumps. This demonstrated his early interest in innovative control systems and optimization techniques. Dr. Elsayed began his academic journey with a B.Sc. in Mechanical Engineering (Production) at Benha University, graduating with First Place and a “Very Good with Honor” degree in May 2006. His academic achievements, coupled with his research focus, underline his dedication to advancing the field of Mechanical Engineering and his contributions to academic excellence.
Scientific Experience:
Dr. Mostafa Elsayed has demonstrated a profound commitment to advancing research and innovation through his active involvement in various funded projects. Serving as the Principal Investigator of the Egyptian Electric Vehicle Industry Project, a collaborative effort among Benha University, Alexandria University, and the Ministry of Military Production Center of Excellence, he spearheads academic research contributing to the national agenda in 2022. Additionally, Dr. Elsayed is a crucial member of the team working on the project “Integrated Sustainable Solutions for Energy and Water Management in Educational Buildings: A Pilot Study,” which was submitted to the Science and Technology Fund and the Academy of Scientific Research, reflecting his dedication to sustainable solutions. As the supervisor of student projects funded by the Academy of Scientific Research in 2020, he has played a pivotal role in guiding innovative initiatives, including a solar-powered multifunctional flying robot, a multifunctional robot for disinfecting the Nile River, and a smart waste collection and sorting system. Furthermore, Dr. Elsayed serves as the Co-Principal Investigator for a research project funded by the Scientific Research Fund at Benha University, focusing on energy harvesting from cars in high traffic areas. His consultancy role extends to the student project fund for the “Water hyacinth harvester,” supported by the Academy of Scientific Research and Technology (ASRT). Dr. Elsayed’s diverse involvement underscores his dedication to advancing scientific knowledge and fostering practical solutions in areas ranging from electric vehicles to sustainable energy and environmental projects.
Research Focus:
Mostafa E.A. Elsayed’s research primarily focuses on diverse areas such as fluid-structure interactions, renewable energy systems, and control mechanisms for robotic applications. His work spans topics like the influence of magnetically-induced nonlinear added stiffness on lift galloping of square cylinders, evaluation of small hydropower turbines in Egypt, and speed and torque control of pneumatic motors. Additionally, he explores parametric optimization for gravity energy storage, design of an active gate for vehicle control, and dimensioning hydraulic gravity energy storage systems using fuzzy logic. Elsayed’s multidisciplinary research contributes significantly to the fields of mechanical engineering, robotics, and renewable energy. 🌐🔧🔄🌱
Publications top Notes:
- Influence of magnetically-induced nonlinear added stiffness on the lift galloping of square cylinders
at low Reynolds number - M. E. A. Elsayed, A. K. A. Mohamed, M. Shaaban, M. A. Abdelrahman, M. E. A. E. Ahmed and M. R.
Rashed, “Developing a Floating Robot for Mechanical Control of Water Hyacinth,” 2023 International
Mobile, Intelligent, and Ubiquitous Computing Conference (MIUCC), Cairo, Egypt, 2023, pp. 1-8, doi:
10.1109/MIUCC58832.2023.10278351. - Ahmed , M.E., Abdellatif, M.A., Attia, A.A.A. et al. Evaluation of small hydropower turbines installed
downstream of Nile River branches (Egypt). Sci Rep 13, 15061 (2023).
https://doi.org/10.1038/s41598-023-41775-1 - Aziz, M.A., Benini, E., Elsayed, M.E.A. et al. Speed and torque control of pneumatic motors using
controlled pulsating flow. Int J Adv Manuf Technol 127, 635–648 (2023).
https://doi.org/10.1007/s00170-023-11562-3 - Elsayed, M.E.A., Abdo, S., Attia, A.A.A. et al. Parametric optimisation for the design of gravity energy
storage system using Taguchi method. Sci Rep 12, 19648 (2022). https://doi.org/10.1038/s41598-
022-20514-y. - Abdelrahman Elsayed, Ahmed A. A. Attia, M. F. Abd. Rabbo, Mostafa E. A. Elsayed. (2022). Design of
an Active Gate to Control the Passenger Vehicle. Design Engineering, (1), 3382 – 3397. Retrieved from
http://thedesignengineering.com/index.php/DE/article/view/9443. - Mostafa E.A. Elsayed, Ahmed A.A. Attia, M.A. Abdelrahman, El-Awady Attia, “Dimensioning of the
hydraulic gravity energy storage system using Fuzzy logic based simulation”, Journal of Energy
Storage, Volume 42, 2021, 103151, https://doi.org/10.1016/j.est.2021.103151.ر0202، .2020.13722MRK/10.21608/org.doi://https - M. Elsayed, M. Sokar, S. Abd Rabbo and M. El-Arabi (2016). Wheeled Mobile Robot Control Using
Advanced Fuzzy Control. 17th Int. Conference on Applied Mechanics and Mechanical Engineering,
April 19-21, 2016. Proceedings. (pp. 1-15)RC. - M. Elsayed, M. Ib. Sokar, S. Abd Rabbo, M. El_Arabi (2015). Voice robot control using advanced fuzzy
control techniques. International Journal of Scientific & Engineering Research, Volume 6, Issue 11,
November-2015 (pp. 1195 –1201). http://doi.org/ 10.14299/ijser.2015.11.008