Professor at Ontario Tech University, Canada
Hossam A. Gabbar is a distinguished academic and researcher specializing in energy systems, nuclear engineering, and smart energy technologies. As a full Professor at Ontario Tech University (UOIT), he leads several prominent research labs and has garnered recognition for his impactful contributions to the field. With a diverse educational background and extensive experience in academia and industry, Gabbar’s expertise encompasses a wide range of topics, from hybrid energy systems to AI applications in energy management.
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Gabbar’s prolific research output includes over 220 publications, comprising patents, books/chapters, journal articles, and conference papers. His work has been cited extensively, reflecting its significant impact within the scientific community. Gabbar’s contributions to the field have positioned him among the top 2% of worldwide scientists, particularly for his work on smart energy systems integrated with applied AI.
Citations: Gabbar’s work has been cited 4523 times, indicating the widespread recognition and relevance of his research contributions within scholarly literature.
h-index: With an h-index of 30, Gabbar has published at least 30 papers that have each received at least 30 citations, demonstrating the depth and impact of his scholarly output.
i10-index: Gabbar’s i10-index, which measures the number of publications with at least 10 citations, stands at 111. This index provides further insight into the breadth of his impact, as it reflects the dissemination and uptake of his research across a wide range of scholarly works.
Education:
Gabbar holds a Ph.D. in Process Systems & Safety Engineering from Okayama University, Japan, as well as a Master’s Degree in Computer and Automatic Control from Alexandria University, Egypt. He completed his undergraduate studies with distinction, earning a B.Sc. Degree from Alexandria University. This robust educational background has provided him with a solid foundation for his subsequent academic and professional endeavors.
Research Focus:
Gabbar’s research interests encompass hybrid nuclear and energy systems, smart energy grids, energy safety and control systems, and waste-to-energy technologies employing advanced plasma methodologies. His work is at the forefront of addressing challenges in sustainable energy production, grid resilience, and environmental conservation. Through his interdisciplinary approach, Gabbar seeks to advance innovative solutions for a more sustainable energy future.
Professional Journey:
Gabbar’s professional journey spans academia, industry, and international collaboration. He has held various academic positions, including Associate Professorships at Tokyo Institute of Technology and Okayama University in Japan. Additionally, he has contributed to research and teaching at prestigious institutions worldwide, fostering global partnerships and knowledge exchange. Gabbar’s industry experience in intelligent systems, process automation, and safety engineering further enriches his academic pursuits, enabling him to bridge theory and practice effectively.
Honors & Awards:
Gabbar’s contributions to the field have been recognized with numerous honors and awards. Notably, he received the Senior Research Excellence Award from UOIT in 2016. He has also been the recipient of grants and funding from prestigious organizations such as NSERC, OCE/OCI, Mitacs, and the Qatar National Research Foundation, underscoring the significance and impact of his research endeavors.
Publications Noted & Contributions:
Gabbar’s extensive publication record reflects the breadth and depth of his contributions to academia and industry. His research outputs, including patents, books/chapters, and peer-reviewed articles, have advanced knowledge in key areas such as energy systems, control engineering, and safety management. Gabbar’s work not only contributes to the scholarly discourse but also informs practical solutions for real-world challenges in energy and sustainability.
“Hydrogen energy planning with water considerations: A SWITCH model enhancement for sustainable deployment”
- Published in the International Journal of Hydrogen Energy in May 2024.
- This article presents an enhancement to the SWITCH model focusing on hydrogen energy planning, taking into account water considerations for sustainable deployment.
- Contributors: Hossam A. Gabbar; Elena Villalobos Herra.
“A Symmetric Sixth-Order Step-Up Converter with Asymmetric PWM Achieved with Small Energy Storage Components”
- Published in the journal Symmetry in April 2024.
- The paper discusses a symmetric sixth-order step-up converter with asymmetric PWM achieved using small energy storage components.
- Contributors: Iván Dueñas-García; Julio C. Rosas-Caro; Hector R. Robles-Campos; Johnny Posada; Jesus E. Valdez-Resendiz; Antonio Valderrabano-Gonzalez; Hossam A. Gabbar; Bhanu Babaiahgari.
“Power Signal Analysis for Early Fault Detection in Brushless DC Motor Drivers Based on the Hilbert–Huang Transform”
- Published in the World Electric Vehicle Journal in April 2024.
- This paper presents a power signal analysis technique for early fault detection in brushless DC motor drivers, based on the Hilbert–Huang Transform.
- Contributors: David Marcos-Andrade; Francisco Beltran-Carbajal; Eduardo Esquivel-Cruz; Ivan Rivas-Cambero; Hossam A. Gabbar; Alexis Castelan-Perez.
“ARSIP: Automated Robotic System for Industrial Painting”
- Published in the journal Technologies in February 2024.
- The article introduces ARSIP, an Automated Robotic System for Industrial Painting.
- Contributors: Hossam A. Gabbar; Muhammad Idrees.
“Analysis of Essential Features and Optimal Operational Parameters of an RF-ICP Torch for Waste Treatment Applications”
- Published in the journal Recycling in February 2024.
- This paper analyzes essential features and optimal operational parameters of an RF-ICP Torch for waste treatment applications.
- Contributors: Mustafa A. Aldeeb; Sharif Abu Darda; Vahid Damideh; Isaac Hassen; Hossam A. Gabbar.
Research Timeline:
Gabbar’s research journey has evolved over several decades, beginning with his academic pursuits in the late 1980s and culminating in his current role as a leading authority in smart energy systems. From his early research and teaching assistantships to his tenure as a full Professor, Gabbar has consistently pursued innovative research avenues and forged collaborations with academia, industry, and governmental agencies worldwide.
Collaborations and Projects:
Gabbar’s research endeavors have been enriched by collaborations with diverse stakeholders, including researchers, industry professionals, and policymakers. Through collaborative projects, he has tackled complex challenges in energy infrastructure, transportation electrification, and resilience planning. Gabbar’s involvement in national and international initiatives underscores his commitment to interdisciplinary collaboration and knowledge exchange for addressing global energy challenges.
