Dr. Shoaib Ahmed Khan, Guangzhou University, China.
Shoaib Ahmed Khan is an accomplished electrical engineer specializing in power management and attitude control subsystems for small satellites. His academic journey began with a Bachelor’s and Master’s in Electrical Engineering from NUCES FAST, Pakistan, where he contributed to the Pakistan National Student Satellite Project (PNSS-1). Professionally, he started as a Site Engineer with the Army Housing Directorate in Pakistan before pursuing a Ph.D. at Zhejiang University, China. He further advanced his research through a Postdoctoral Fellowship at Guangzhou University, focusing on optimizing satellite technologies. Shoaib’s innovative work has been published in prestigious journals, and his research significantly influences nanosatellite design and functionality.
Profile
Google Scholar
🚀 Early Academic Pursuits
Shoaib Ahmed Khan’s academic journey began with a strong foundation in electrical engineering. He earned his Bachelor of Science in Electrical Engineering from NUCES FAST, Pakistan, where his curiosity for renewable energy led him to design and implement a Concentrated Solar Power System for his final year project. Driven by a passion for advancing technology, he pursued a Master of Science in Electrical Engineering at the same institution, achieving an impressive CGPA of 3.52/4.0. During this time, he collaborated with Pakistan’s National Space Agency (SUPARCO) on the Pakistan National Student Satellite Project (PNSS-1), contributing to the design of power conditioning units, solar panels, and embedded reconfigurable magnetorquers for microsatellites.
🛠️ Professional Endeavors
Shoaib’s professional career began as a Site Engineer (Electrical and Mechanical) with the Army Housing Directorate under the General Headquarters of Pakistan. His role involved overseeing critical infrastructure projects, which honed his engineering and management skills. His academic excellence paved the way for his doctoral studies at Zhejiang University, China, where he specialized in power management and attitude control subsystems for small satellites. After earning his Ph.D., Shoaib advanced to a Postdoctoral Fellowship at Guangzhou University, expanding his expertise in satellite technologies.
🌌 Contributions and Research Focus
Shoaib Ahmed Khan’s research is centered on small satellite technologies, particularly power management systems and attitude control subsystems. His innovative work includes the optimized design of embedded air coils, reconfigurable asymmetric magnetorquers, and printed magnetorquers tailored for nanosatellites. These advancements play a critical role in improving satellite efficiency, stability, and adaptability in space missions. His collaboration with international scholars reflects his commitment to pushing the boundaries of aerospace engineering.
🏅 Accolades and Recognition
Shoaib’s research excellence has been recognized through multiple high-impact journal publications in prestigious outlets such as the Journal of Aerospace Information Systems and the IEEE Journal of Miniaturization for Air and Space Systems. His contributions to the development of advanced magnetorquer systems have garnered attention in the academic and aerospace communities, showcasing his innovative spirit and technical acumen.
🌍 Impact and Influence
Shoaib’s work has significantly influenced the field of small satellite engineering, particularly in enhancing the design and functionality of nanosatellite attitude control systems. His research has provided new insights into optimizing satellite components for better performance in diverse space environments. As an educator and researcher, he continues to inspire young engineers, fostering a new generation of scientists dedicated to aerospace innovation.
🔭 Legacy and Future Contributions
Looking ahead, Shoaib Ahmed Khan aims to further his contributions to space technology by exploring new frontiers in satellite power systems and control mechanisms. His vision includes developing sustainable and efficient technologies for future space missions, with an emphasis on miniaturization and adaptability. His commitment to research and education ensures a lasting impact on the global aerospace community.
Publication
- Title: Design of Modular Power Management and Attitude Control Subsystems for a Microsatellite
Author(s): A. Ali, S.A. Khan, M.U. Khan, H. Ali, M. Rizwan Mughal, J. Praks
Year: 2018
- Title: Active Attitude Control for Microspacecraft: A Survey and New Embedded Designs
Author(s): S.A. Khan, Y. Shiyou, A. Ali, S. Rao, S. Fahad, W. Jing, J. Tong, M. Tahir
Year: 2022
- Title: More Electric Aircraft Challenges: A Study on 270 V/90 V Interleaved Bidirectional DC–DC Converter
Author(s): M. Tahir, S.A. Khan, T. Khan, M. Waseem, D. Khan, A. Annuk
Year: 2022
- Title: Design & Thermal Modeling of Solar Panel Module with Embedded Reconfigurable Air-Coil for Micro-Satellites
Author(s): A. Ali, S.A. Khan, M.A. Dildar, H. Ali, N. Ullah
Year: 2018
- Title: Optimized Design and Analysis of Printed Magnetorquer for a 3-U Nano-Satellite
Author(s): S. Ahmed Khan, A. Ali, Y. Shiyou, S. Fahad, J. Tong
Year: 2022
- Title: Optimized Design of Embedded Air Coil for Small Satellites with Various Dimensions
Author(s): S. Ahmed Khan, A. Ali, Y. Shiyou, J. Tong, J.M. Guerrero
Year: 2021
- Title: A Hybrid Smart Quantum Particle Swarm Optimization for Multimodal Electromagnetic Design Problems
Author(s): S. Fahad, S. Yang, S.U. Khan, S.A. Khan, R.A. Khan
Year: 2022
- Title: A Multimodal Smart Quantum Particle Swarm Optimization for Electromagnetic Design Optimization Problems
Author(s): S. Fahad, S. Yang, R.A. Khan, S. Khan, S.A. Khan
Year: 2021
- Title: PCB-Integrated Embedded Planar Magnetorquers for Small Satellites Intelligent Detumbling
Author(s): S.A. Khan, Y. Shiyou, A. Ali, M. Tahir, S. Fahad, S. Rao, M. Waseem
Year: 2023
Conclusion
Shoaib Ahmed Khan’s career embodies a blend of academic excellence, technical innovation, and professional dedication. His contributions to small satellite technologies have advanced the field of aerospace engineering, particularly in power systems and attitude control mechanisms. As he continues to explore new frontiers in space technology, his legacy will inspire future engineers and researchers, solidifying his role as a key contributor to the evolution of satellite engineering and space exploration.