SeyyedMorteza Ghamari | Ecology | Best Researcher Award

Published on by Soil Scientist

Dr. SeyyedMorteza Ghamari | Ecology | Best Researcher Award

Dr. SeyyedMorteza Ghamari, Edith Cowan University, Australia

Dr. SeyyedMorteza Ghamari is a researcher at Edith Cowan University, Australia, specializing in control engineering, power electronics, and industrial automation. He holds a Ph.D. in Electrical Engineering and has expertise in designing singular perturbation-based controllers, DC/DC converters, and grid-connected inverters. His research focuses on automation, renewable energy applications, and adaptive control systems. With experience in both academia and industry, he has contributed to hardware-embedded system design, PLC programming, and real-time measurements. Dr. Ghamari is proficient in MATLAB, C++, and HIL setups, actively working on innovative solutions in electrical and control engineering.

Profile

Scopus

Summary:

Dr. SeyyedMorteza Ghamari is a highly skilled researcher specializing in electrical engineering, control systems, and renewable energy applications. His technical expertise, research output, and contributions to sustainable energy solutions make him a strong candidate for a Best Researcher Award. However, increasing his research impact through higher citation counts, global collaborations, and grant-funded projects would further solidify his position as a top researcher in the field.

🎓 Education

Seyyedmorteza Ghamari holds a Master’s degree in Electrical Engineering with a specialization in Control Engineering from Shahrood University of Technology, Iran, completed in December 2018. His thesis focused on designing a robust adaptive self-tuning controller for a single-phase H-bridge inverter connected to the grid using identification methods. He previously earned a Bachelor’s degree in Electrical Engineering from Alameh Feiz University in 2016, where he also specialized in Control Engineering.

💼Experience

With experience in both academia and industry, Seyyedmorteza worked as an Automation Engineer at Ghamari Company from 2020 to 2022. In this role, he was responsible for maintaining instruments, designing hardware setups, and coding and programming CPUs for automatic doors, motors, and embedded boards. Prior to that, he served as a Research Assistant at Shahrood University of Technology from 2017 to 2019, where he worked as a teaching assistant, lab coordinator, and simulation designer, contributing to research and academic projects.

🔬Research Focus

Seyyedmorteza’s research focuses on control system design and implementation, automation, power electronics, and renewable energy applications. He is particularly skilled in singular perturbation-based controllers, DC/DC converters, and inverter technology. His work emphasizes the integration of adaptive control techniques to optimize electrical systems, making significant contributions to automation and power system research.

🛠️Skills

His expertise spans control engineering, electrical design, hardware-embedded systems, and power electronics, with a strong background in DC/DC converters and grid-connected inverters. He has substantial experience in industrial automation, PLC programming, and instrumentation for control systems. Additionally, he is proficient in MATLAB for simulation and modeling, along with Microsoft Office, HIL setup, and C++ programming.

🏆Awards

He has demonstrated strong academic performance, maintaining high course-weighted averages throughout his education. His commitment to innovation and continuous learning has allowed him to excel in both research and industry applications. With a keen analytical approach and teamwork abilities, he actively contributes to multidisciplinary projects in electrical and control engineering.

📚 Publications

Addressing Uncertainty in Renewable Energy Integration for Western Australia’s Mining Sector: A Robust Optimization Approach. Energies. Ghahramani, M., Habibi, D., Ghamari, S. M., & Aziz, A. (2024). 

Conclusion:

Dr. Ghamari is a suitable candidate for the Best Researcher Award, given his technical excellence, research contributions, and real-world applications of his work. While he has strong credentials, further international collaborations, grant leadership, and higher research impact can elevate his profile even further, making him an even stronger contender for prestigious research accolades.

Saghar Hashem | Environmental Science | Best Researcher Award

Published on by Soil Scientist

Dr. Saghar Hashem | Environmental Science | Best Researcher Award

Dr. Saghar Hashem, Auckland University of Technology, New Zealand

Dr. Saghar Hashemi is a sustainable architect and researcher at Auckland University of Technology, New Zealand, specializing in sustainability, renewable energy design, and climate adaptation. With a PhD focused on microclimate analysis and outdoor thermal comfort, her expertise includes carbon emissions analysis, energy simulations, and life cycle assessments. She has over four years of experience in sustainable architecture, working on industrial and academic projects. Dr. Hashemi is committed to advancing sustainability in construction through innovative research and practical solutions.

Profile

Scopus

Summary:

Dr. Saghar Hashemi’s contributions to sustainable architecture, renewable energy, and climate adaptation are remarkable. Her research addresses critical global challenges, blending theoretical innovation with practical application. With expertise in thermal comfort, carbon analysis, and energy simulations, she has made meaningful advancements in the field of sustainable design. Her industry and teaching experience further solidify her ability to bridge academia and practice effectively.

 

🎓 Education

Saghar Hashemi holds a Doctor of Philosophy from Auckland University of Technology, New Zealand (2021-2024), where her research focused on analyzing microclimate conditions and improving outdoor thermal comfort. Her PhD work included analyzing global warming potential, embodied carbon, life cycle assessments, environmental impact of materials on climate change, thermal and energy simulations, and developing climate adaptation plans. She also earned an MSc in Architectural Engineering from Islamic Azad University, Iran (2015-2017), with a thesis on designing a cultural complex inspired by traditional Iranian bazaars. Her educational journey began with a BSc in Architectural Engineering from Islamic Azad University, Iran (2011-2015), where she worked on designing a residential complex featuring diverse housing types.

 

💼Experience

Saghar is currently a Sustainability Coordinator at Thermosash Ltd. in Auckland, New Zealand, where she leads sustainability initiatives in facade design and construction projects. Her responsibilities include performing embodied carbon calculations, operational energy analysis, and ensuring compliance with New Zealand’s sustainability standards. Prior to this, she worked as a Teaching Assistant at Auckland University of Technology (2022-2023), guiding students in the use of Revit for sustainable design and teaching concepts of asset and facilities management. From 2018 to 2021, she was a Sustainable Architectural Designer at SepantaAgrin.Co in Iran, where she conducted energy, daylight, and glare analyses, performed thermal studies, and improved building energy efficiency through CFD analysis.

 

🔬Research Focus

Her research centers on sustainability and renewable energy in architecture, with a focus on mitigating construction’s impact on climate change. Key areas include carbon emissions analysis, energy simulations, embodied carbon, life cycle assessments, thermal comfort evaluations, and developing climate adaptation strategies. Her work demonstrates a strong commitment to addressing global warming and enhancing sustainable design practices.

 

Awards

Saghar has achieved significant academic recognition, authoring multiple research papers in high-impact journals and contributing to the field of outdoor thermal comfort and sustainability. Her publications include studies on wind speed analysis, outdoor thermal risk mapping, and climate change impacts on thermal comfort patterns. She remains committed to advancing sustainable practices through her research and professional endeavors.

Skills

Saghar has a comprehensive skill set that includes embodied carbon analysis, energy simulations, thermal comfort assessments, and climate adaptation planning. She excels in conceptual, developed, and detailed architectural design, and is proficient in utilizing tools such as Revit and Excel for building simulations. Her expertise extends to project management, where she ensures the successful delivery of projects by managing timelines, budgets, and deliverables while fostering collaboration across diverse teams.

Publications

Title: The Impacts of Historical and Future Climate Change Projections on the Outdoor Thermal Comfort Patterns of Auckland, New Zealand
Authors: Hashemi, S., Ghaffarianhoseini, A., Ghaffarianhoseini, A., Berardi, U., Rahimian, F.
Year: 2025
Source: Lecture Notes in Civil Engineering, Vol. 553 LNCE, pp. 209–217
Citations: 0

Title: Summer Outdoor Thermal Risk Area Mapping on a University Campus in Auckland, New Zealand
Authors: Hashemi, S., Ghaffarianhoseini, A., Ghaffarianhoseini, A., Sailor, D., Berardi, U.
Year: 2024
Source: Architectural Science Review
Citations: 0

Title: Pedestrian-Level Wind Speed Analysis: A Case Study
Authors: Hashemi, S., Ghaffarianhoseini, A., Ghaffarianhoseini, A., Santamouris, M., Kikumoto, H.
Year: 2024
Source: Architectural Science Review
Citations: 1

Title: A Systematic Review of Microclimate and Outdoor Thermal Comfort Studies in Australia and New Zealand
Authors: Hashemi, S., Ghaffarianhoseini, A., Ghaffarianhoseini, A., Naismith, N., Jamei, E.
Year: 2024
Source: Smart and Sustainable Built Environment
Citations: 0

Conclusion:

Dr. Saghar Hashemi is a strong candidate for the Best Researcher Award. Her innovative contributions, interdisciplinary collaborations, and focus on solving real-world problems make her a deserving contender. While further expanding her outreach and funding initiatives could enhance her profile, her existing achievements demonstrate significant merit and promise for future impact in sustainable architecture and environmental research.