Rasool Ghobadian | Automobile Engineering | Best Researcher Award

Posted on by Automobile Award

Prof. Dr. Rasool Ghobadian | Automobile Engineering | Best Researcher Award

University Professor  |  Razi university  |  Iran

Dr. Rasoul Ghobadian is a distinguished academic and researcher in the field of water engineering, specializing in advanced hydraulics, sediment transport, flood modeling, and computational hydraulics. As a professor at the Department of Water Engineering, Faculty of Agriculture, Razi University of Kermanshah, he has contributed extensively to both academia and industry through innovative research, design expertise, and teaching excellence. His professional experience spans over two decades, including collaboration with leading consulting firms such as Saman Abraha Tose, Alborz Studies, and Dezab Consulting Engineers, where he participated in large-scale irrigation and hydraulic infrastructure projects involving surface irrigation networks, diversion dams, and intake systems. Dr. Ghobadian’s research integrates theoretical modeling with practical applications, focusing on seepage loss estimation, flood routing, and the hydraulic performance of river confluences and hydraulic structures, with publications in reputed international journals such as Journal of Hydrologic Engineering, Water SA, and Alexandria Engineering Journal. His expertise encompasses computational fluid dynamics, numerical modeling, and water resource system design. Recognized for his excellence, he has received multiple awards including Best Researcher and Exemplary Teaching Professor from the Faculty of Agriculture and the Department of Water Engineering. His research has greatly influenced sustainable water resource management and hydraulic engineering education. Dr. Ghobadian’s scholarly achievements continue to advance the global understanding of hydraulic systems and water infrastructure optimization. He has achieved 136 Citations,  30 Documents, 6 h-index.

Profiles: Google Scholar  ORCID  |  Scopus

Featured Publications 

  1. Ghobadian, R., & Bajestan, M. S. (2007). Investigation of sediment patterns at river confluence. [Unpublished study]. Citations: 51

  2. Ghobadian, R., & Mohammadi, K. (2011). Simulation of subcritical flow pattern in 180° uniform and convergent open-channel bends using SSIIM 3-D model. Water Science and Engineering, 4(3), 270–283. Citations: 35

  3. Ghobadian, R., & Meratifashi, E. (2012). Modified theoretical stage-discharge relation for circular sharp-crested weirs. Water Science and Engineering, 5(1), 26–33. Citations: 21

  4. Ghobadian, R. (2007). Investigation of flow, scouring and sedimentation at river-channel confluences. Ph.D. Thesis, Department of Hydraulic Structures, Shahid Chamran University of Ahvaz. Citations: 13

  5. Mobara, S. E. H., Ghobadian, R., Rouzbahani, F., & Đorđević, D. (2021). Numerical simulation of submarine non-rigid landslide by an explicit three-step incompressible smoothed particle hydrodynamics. Engineering Analysis with Boundary Elements, 130, 196–208. Citations: 12

Dr. Rasoul Ghobadian’s pioneering research in hydraulic and sediment transport modeling enhances the understanding of river dynamics, erosion, and flood management systems. His work bridges scientific innovation with engineering practice, contributing to the sustainable design of hydraulic structures, water resource optimization, and disaster resilience for communities and industries worldwide.

 

Homayoon Oraizi | Steering Systems | Best Researcher Award

Posted on by Automobile Award

Prof. Homayoon Oraizi | Steering Systems | Best Researcher Award

Professor  |  Iran university of science and technology  |  Iran

Prof. Homayoon Oraizi is a distinguished scholar and exemplary professor whose remarkable contributions have profoundly shaped the fields of electromagnetic theory, microwave engineering, and antenna design. With decades of academic excellence and research leadership, his work has advanced the understanding of electromagnetic wave propagation, leaky-wave antennas, frequency selective surfaces, and reflectarray systems. Throughout his career, he has combined rigorous theoretical analysis with innovative design methodologies to create next-generation microwave and terahertz devices, contributing to both academic research and industrial applications. His expertise encompasses electromagnetic field modeling, computational electromagnetics, signal propagation in complex media, and the development of high-efficiency passive and active devices. A prolific researcher and mentor, he has authored and co-authored numerous high-impact journal articles in renowned publications such as IEEE Transactions on Antennas and Propagation, IET Microwaves, Antennas & Propagation, and Scientific Reports. His research interests also include modern antenna technologies, metamaterials, radio wave propagation, and microwave circuit optimization. Renowned for his analytical precision and deep insight into physical phenomena, Professor Oraizi has guided numerous students and collaborators, contributing significantly to the global electromagnetic research community. His professional achievements reflect not only scientific excellence but also an enduring commitment to innovation, education, and mentorship in electrical engineering. Recognized internationally for his pioneering research, he continues to influence advancements in high-frequency systems and sustainable wireless communication technologies. He has acheived 4,081 Citations, 263 Documents,  33 h-index.

Profiles:  Google Scholar | ORCID | Scopus

Featured Publications

1. Oraizi, H., & Hedayati, S. (2011). Miniaturized UWB monopole microstrip antenna design by the combination of Giusepe Peano and Sierpinski carpet fractals. IEEE Antennas and Wireless Propagation Letters, 10, 67–70.

2. Oraizi, H., & Sharifi, A. R. (2006). Design and optimization of broadband asymmetrical multisection Wilkinson power divider. IEEE Transactions on Microwave Theory and Techniques, 54(5), 2220–2231.

3. Oraizi, H. (2008). Application of the invasive weed optimization technique for antenna configurations. Progress in Electromagnetics Research, 79, 1–24.

4. Fakhte, S., Oraizi, H., Karimian, R., & Fakhte, R. (2015). A new wideband circularly polarized stair-shaped dielectric resonator antenna. IEEE Transactions on Antennas and Propagation, 63(4), 1828–1832.

5. Karimian, R., Oraizi, H., Fakhte, S., & Farahani, M. (2013). Novel F-shaped quad-band printed slot antenna for WLAN and WiMAX MIMO systems. IEEE Antennas and Wireless Propagation Letters, 12, 405–408.