Salem Batiyah | Engineering | Best Researcher Award

Published on by World Top Scientists

Dr. Salem Batiyah | Engineering | Best Researcher Award

Assistant Professor at Yanbu Industrial College, Saudi Arabia

Dr. Salem Mohammed Batiyah is a dedicated researcher in electrical engineering with strong contributions to distributed energy resources, microgrids, and advanced control systems. His work is published in respected journals such as IEEE Access and Energies, covering both theoretical and applied aspects of renewable energy systems. He has an active role as a reviewer for top-tier journals, reflecting recognition by the global research community. In addition to his research, Dr. Batiyah demonstrates academic leadership through curriculum development, teaching, and quality assurance roles. While his citation metrics and absence of major research grants suggest areas for growth, his ongoing publication record and technical expertise indicate a solid foundation for future impact. Strengthening international collaborations and securing research funding will further enhance his research profile. Overall, Dr. Batiyah is a strong candidate for the Best Researcher Award, especially in domains valuing practical innovation and contributions to sustainable energy and smart grid development

Professional Profile 

Google Scholar

Strengths for the Award

Dr. Salem Mohammed Batiyah presents a strong and relevant research portfolio in modern electrical engineering fields, particularly in distributed energy resources (DERs), microgrids, hybrid power plants, and advanced control systems. His work addresses high-impact areas such as renewable energy integration, predictive control, and fault-tolerant power electronics, which are central to global energy transition goals.

He has authored multiple peer-reviewed journal and conference papers, with publications in well-regarded outlets such as IEEE Access and Energies. These include both novel technical contributions and comprehensive reviews, suggesting breadth and depth. His global engagement as a reviewer for prestigious journals such as IEEE Transactions on Industrial Informatics and IEEE JESTIE reflects his standing in the academic community.

Additionally, Dr. Batiyah combines research with active academic and administrative leadership, curriculum development, and extensive teaching in power systems and control engineering. This integration of research and teaching enhances his impact and dissemination of knowledge.

Education

Dr. Salem Mohammed Batiyah holds a Ph.D. in Electrical Engineering from Mississippi State University, where he specialized in power management and control systems for renewable energy applications. He earned his M.Sc. and B.Sc. degrees in Electrical Engineering from Western Michigan University. His graduate studies focused on distributed energy resources, microgrid integration, and model predictive control systems. Throughout his academic journey, Dr. Batiyah developed a solid foundation in both theoretical and practical aspects of power systems, signal processing, and advanced control techniques. His educational background is complemented by professional certifications, including Lean Six Sigma and OSHA safety training, demonstrating his commitment to quality and operational excellence. Dr. Batiyah’s education has prepared him to address real-world engineering challenges in sustainable energy and has laid the groundwork for a research-oriented academic career. His academic experience is characterized by interdisciplinary training and international exposure, enhancing his perspective in solving complex energy system problems.

Experience

Dr. Salem Batiyah brings a wealth of academic and professional experience to the field of electrical engineering. Since 2020, he has been serving as an Assistant Professor at Yanbu Industrial College, where he has taught various undergraduate and associate courses in power electronics, control systems, and industrial electronics. He also worked as a Graduate Research Assistant at Mississippi State University from 2015 to 2020, engaging in research related to power management in renewable energy systems. His earlier academic experience includes working as a lecturer at Yanbu Industrial College from 2014 to 2020. Dr. Batiyah has held several administrative roles such as Department Curriculum Coordinator, Head of Curriculum and Development, and Academic Quality Coordinator. He is actively involved in multiple college and department-level committees, contributing to academic planning, program development, and quality assurance. His career reflects a blend of teaching, research, and leadership, all aimed at advancing engineering education and applied energy solutions.

Awards and Honors

Dr. Salem Batiyah has received multiple awards and honors recognizing his academic excellence and professional achievements. Notably, he was inducted into prestigious honor societies including Phi Kappa Phi, Gamma Beta Phi, and IEEE Eta Kappa Nu, reflecting high academic performance during his graduate and undergraduate studies. He was awarded the First Class Standing Award for Master of Science students and consistently made the Dean’s List during his undergraduate years. In 2023, his research output earned him 123 scholarly citations, with an h-index of 5 and an i10-index of 3, indicating growing recognition within the research community. Additionally, he holds professional certifications such as Black Belt in Lean Six Sigma and OSHA Safety Training, demonstrating his commitment to continuous professional development. His active participation in global academic organizations and contributions as a peer reviewer for multiple IEEE journals further validate his influence and leadership in the field of electrical and energy engineering.

Research Focus on Engineering

Dr. Salem Batiyah’s research centers around the modeling, analysis, and control of distributed energy resources (DERs), including solar photovoltaics and battery energy storage systems. His work addresses the integration of these resources into microgrids and hybrid power plants, with an emphasis on system reliability and efficiency. A key area of focus is the application of advanced control methods such as nonlinear, robust, and model predictive control (MPC) to optimize energy management under varying load and environmental conditions. Dr. Batiyah also explores advanced signal processing and phase-locked loops within DER systems, supporting grid stability and intelligent power conversion. His research aims to provide scalable and sustainable solutions to modern energy challenges, contributing to the global shift toward renewable and decentralized energy systems. Through peer-reviewed publications and academic collaborations, Dr. Batiyah is establishing himself as a forward-thinking researcher addressing critical challenges in the evolving energy landscape.

Publications Top Notes

  • Title: An MPC-based power management of standalone DC microgrid with energy storage
    Authors: S. Batiyah, R. Sharma, S. Abdelwahed, N. Zohrabi
    Year: 2020
    Citations: 111

  • Title: An MPC-based power management of a PV/battery system in an islanded DC microgrid
    Authors: S. Batiyah, N. Zohrabi, S. Abdelwahed, R. Sharma
    Year: 2018
    Citations: 36

  • Title: Single-phase fault tolerant multilevel inverter topologies—comprehensive review and novel comparative factors
    Authors: H. Rehman, M. Tariq, A. Sarwar, W. Alhosaini, M.A. Hossain, S.M. Batiyah
    Year: 2022
    Citations: 22

  • Title: Optimal control design of a voltage controller for stand-alone and grid-connected PV converter
    Authors: S. Batiyah, N. Zohrabi, S. Abdelwahed, T. Qunais, M. Mousa
    Year: 2018
    Citations: 17

  • Title: Predictive control of PV/battery system under load and environmental uncertainty
    Authors: S. Batiyah, R. Sharma, S. Abdelwahed, W. Alhosaini, O. Aldosari
    Year: 2022
    Citations: 15

  • Title: Performance evaluation of multiple machine learning models in predicting power generation for a grid-connected 300 MW solar farm
    Authors: O. Aldosari, S. Batiyah, M. Elbashir, W. Alhosaini, K. Nallaiyagounder
    Year: 2024
    Citations: 11

  • Title: Image-based partial discharge identification in high voltage cables using hybrid deep network
    Authors: O. Aldosari, M.A. Aldowsari, S.M. Batiyah, N. Kanagaraj
    Year: 2023
    Citations: 8

  • Title: Impact of variation of energy resources on voltage stability of a micro grid
    Authors: M.A. Mousa, S. Abdelwahed, S.M. Batiyah, T. Qunais
    Year: 2017
    Citations: 6

  • Title: Deep neural networks model for accurate photovoltaic parameter estimation under variable weather conditions
    Authors: S. Batiyah, A. Al-Subhi, O. Elsherbiny, O. Aldosari, M. Aldawsari
    Year: 2025

  • Title: Predictive control of standalone DC microgrid with energy storage under load and environmental uncertainty
    Author: S.M. Batiyah (Ph.D. Dissertation)
    Year: 2020

Conclusion

Dr. Salem Mohammed Batiyah exemplifies a rising leader in electrical and energy systems engineering, combining academic rigor with real-world impact. His research contributions, especially in renewable energy integration and intelligent control systems, align with global priorities for sustainability and innovation. His dual strengths in teaching and research, complemented by his service in academic development and international peer reviewing, position him as a multidimensional scholar. While his citation metrics and grant record indicate room for further growth, his upward trajectory and commitment to excellence are undeniable. Dr. Batiyah stands out as a promising candidate for recognition in the research community and is well on his way to becoming a major contributor to the field of smart and sustainable energy systems. With continued focus on high-impact collaboration and innovation, he is poised to make significant strides that benefit academia, industry, and the broader society.

Hongliang Li | Optoelectronic Engineering | Best Researcher Award

Published on by World Top Scientists

Dr Hongliang Li | Optoelectronic Engineering | Best Researcher Award

Dr Hongliang Li ,Jiangnan University, China

Hongliang Li is a prominent researcher in Optoelectronic Engineering, specializing in optical metasurfaces. Born in Heihe City, Heilongjiang Province, China, he is currently pursuing a combined master’s and doctoral program at Kwangwoon University, South Korea. His research contributions span advanced photonics and optical devices, evidenced by numerous high-impact publications. Hongliang has garnered recognition for his work, including full scholarships and prestigious paper awards. With a solid background in integrated circuit design and a passion for advancing optical technologies, he is committed to pushing the boundaries of optoelectronic applications.

Publication Profile

Orcid

Strengths for the Award

  1. Strong Academic and Research Background:
    • Educational Excellence: Hongliang Li is enrolled in a combined master’s and doctoral program at Kwangwoon University, specializing in Optoelectronic Engineering with a focus on Metasurfaces. His academic achievements include full scholarships and several prestigious paper awards, indicating a high level of academic excellence and recognition in his field.
    • Relevant Project Experience: His involvement in significant national-level projects in South Korea, such as the Nano Device Application Center and LIDAR medium-sized research, demonstrates his capability to handle large-scale, impactful research projects. These projects are closely related to cutting-edge technologies in optical metasurfaces and communication systems.
  2. Published Research and Contributions:
    • High-Impact Publications: Hongliang has published several journal articles in reputable scientific journals, such as Photonics, Nanoscale, Applied Physics Letters, and Advanced Optical Materials. His research topics cover advanced areas like optical metasurfaces, vortex beams, and optical interconnects, showing his contribution to significant advancements in photonics and optoelectronics.
    • Diverse Research Interests: His work spans various applications, including optical trapping, refractive index sensing, and beam steering, which highlights his versatility and broad expertise in optoelectronics and optical engineering.
  3. Technical and Experimental Proficiency:
    • Expertise in Metasurfaces: Hongliang’s proficiency in designing and fabricating various optical metasurfaces and his experience with different optical devices and systems are valuable assets. His skills in utilizing advanced optical equipment and software further underscore his technical expertise.
    • Innovative Research Methods: His involvement in projects that push the boundaries of current technology, such as high-speed wireless optical communication and spectrometer-less sensors, showcases his innovative approach to solving complex problems.
  4. Recognition and Awards:
    • Awards and Scholarships: His awards, including the PC best paper award and COOC best paper award, reflect recognition from the academic community and validation of his research contributions.

Areas for Improvement

  1. Broader Impact and Outreach:
    • Increased Visibility: While Hongliang has a strong research background, enhancing his visibility through more international conferences, public speaking engagements, or collaborations with other leading researchers could further establish him as a prominent figure in his field.
    • Interdisciplinary Collaboration: Engaging in interdisciplinary research that combines optoelectronics with other fields could expand the impact of his work and lead to innovative applications beyond traditional optoelectronic engineering.
  2. Language Skills:
    • Improving Korean Proficiency: Given that he is studying in Korea, improving his proficiency in Korean could facilitate better communication and collaboration with local researchers and institutions, potentially leading to more collaborative opportunities.
  3. Broader Research Dissemination:
    • Publications in High-Impact Journals: While he has published in reputable journals, aiming for even higher-impact journals or prestigious interdisciplinary journals could enhance the reach and influence of his research.

Education

Hongliang Li is currently enrolled in the combined master’s and doctoral program in Optoelectronic Engineering at Kwangwoon University, South Korea, since September 2019. He holds a bachelor’s degree in Integrated Circuit Design and Integrated System from the University of Jinan, China, where he excelled in photonics engineering, semiconductor circuits, and electronics. His academic journey is marked by excellence, earning him full scholarships and various awards, including the first prize scholarship and outstanding student accolades during his undergraduate studies.

Experience

Hongliang Li’s experience includes significant research roles in national-level projects in South Korea. At the Nano Device Application Center, he has contributed to developing multifunctional optical metasurface devices since May 2018. Additionally, his work on the LIDAR medium-sized research project involves designing advanced optical phased arrays for high-speed optical communication. These roles underscore his expertise in project development and application of next-generation optical technologies, showcasing his ability to lead and innovate in the field of optoelectronics.

Research Focus

Hongliang Li’s research focuses on optical metasurfaces and their applications in next-generation information and communication technologies. His work includes the design and implementation of multifunctional optical devices, bidirectional optical phased arrays, and high-speed wireless optical communication systems. He explores cutting-edge technologies such as vortex beam generation, spectrometer-less sensors, and enhanced beam steering, aiming to advance the capabilities and efficiency of optical systems and devices in various applications.

Publication Top Notes

Compact On-Chip Metalens-Assisted Optical Switch Enabling Efficient and Scalable Beam Switching 📄 Photonics (2024) DOI: 10.3390/photonics11070611

Switchable Optical Trapping Based on Vortex-Pair Beams Generated by a Polarization-Multiplexed Dielectric Metasurface 📄 Nanoscale (2023) DOI: 10.1039/D3NR04125E

Spectrometer-Less Refractive Index Sensor Based on the Spatial Weighted Variance of Metasurface-Generated Vortex Beams 📄 Applied Physics Letters (2023) DOI: 10.1063/5.0181269

Flat Telescope Based on an All-Dielectric Metasurface Doublet Enabling Polarization-Controllable Enhanced Beam Steering 📄 Nanophotonics (2022) DOI: 10.1515/nanoph-2021-0609

Flat Retroreflector Based on a Metasurface Doublet Enabling Reliable and Angle‐Tolerant Free‐Space Optical Link 📄 Advanced Optical Materials (2021) DOI: 10.1002/adom.202100796

Flat Retroreflector Based on a Metasurface Doublet Enabling Reliable and Angle‐Tolerant Free‐Space Optical Link 📄 Advanced Optical Materials (2021) DOI: 10.1002/adom.202170089

All‐Dielectric Fiber Meta‐Tip Enabling Vortex Generation and Beam Collimation for Optical Interconnect 📄 Laser & Photonics Reviews (2021) DOI: 10.1002/lpor.202000581

Dielectric Metasurfaces Based on a Rectangular Lattice of a-Si

Conclusion

Hongliang Li is a compelling candidate for the Research for Best Researcher Award due to his strong academic background, significant research contributions, and technical expertise. His involvement in high-impact projects and published research reflects his dedication and excellence in the field of optoelectronic engineering. Addressing areas for improvement, such as increasing his professional visibility and further developing his language skills, could enhance his profile and impact in the global research community.