Shadi Shayan | Emerging Technologies | Best Researcher Award

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Dr. Shadi Shayan | Emerging Technologies | Best Researcher Award

Dr. Shadi Shayan | Adelaide University | Australia

Dr. Shadi Shayan’s research lies at the intersection of project management, smart technologies, and social sustainability, focusing on how large-scale urban innovation programs can effectively manage social risks and deliver equitable outcomes. His scholarly work explores the dynamic relationships between technological transformation, social response, and governance frameworks in smart city development. By integrating change management models with risk management processes, Dr. Shayan has developed innovative frameworks that address the socio-demographic dimensions of smart city transitions—bridging theory, practice, and policy. His doctoral research, “Integrating change models and risk management processes: A framework to manage social risks in smart city programs”, provides a comprehensive model for mitigating community resistance and fostering inclusive participation in technologically driven urban initiatives. Dr. Shayan’s publications in leading journals such as Smart Cities, Sustainable Cities and Society, and International Journal of Construction Management advance understanding of how social factors, demographic variables, and stakeholder perceptions influence the success of smart city and infrastructure projects. A consistent theme in his research is the application of systems thinking and socio-technical analysis to enhance decision-making in project and program management. He also examines the evolving roles of professionals, including engineers and quantity surveyors, in adapting to emerging technological and societal challenges. Dr. Shayan’s work has significant implications for both academia and industry. It informs policy frameworks for smart urban governance, supports organizational strategies for managing social risk, and contributes to sustainable and resilient infrastructure planning. Through interdisciplinary collaborations and active engagement with the Smart Cities Council Australia New Zealand, he connects research with real-world impact—helping shape cities that are not only technologically advanced but also socially responsible and inclusive.

Profiles: Google Scholar | LinkedIn

Featured Publications 

Shayan, S., & Kim, K. P. (2025). Social responses and change management strategies in smart city transitions: A socio-demographic perspective. Smart Cities, 8(6), 188. https://doi.org/10.3390/smartcities8060188

Shayan, S., & Kim, K. P. (2023). Understanding correlations between social risks and sociodemographic factors in smart city development. Sustainable Cities and Society, 89, 104320. https://doi.org/10.1016/j.scs.2022.104320

Shayan, S., & Kim, K. P. (2022). A conceptual framework to manage social risks for smart city development programs. In Resilient and responsible smart cities (pp. 77–86). Springer, Cham. https://doi.org/10.1007/978-3-030-98423-6_6

Shayan, S., Kim, K. P., Ma, T., & Nguyen, T. H. D. (2020). The first two decades of smart city research from a risk perspective. Sustainability, 12(21), 9280. https://doi.org/10.3390/su12219280

Shayan, S., & Kim, K. P., & Tam, V. (2019). Critical success factor analysis for effective risk management at the execution stage of a construction project. International Journal of Construction Management, 22(3), 379–386. https://doi.org/10.1080/15623599.2019.1624678

Rosabel Camacho Gastélum | Scientific Breakthroughs | Women Researcher Award

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Dr. Rosabel Camacho Gastélum | Scientific Breakthroughs | Women Researcher Award 

Dr. Rosabel Camacho Gastélum, Centro Interdisciplinario de Ciencias Marinas, Mexico

Dr. Rosabel Camacho Gastélum is a researcher at the Centro Interdisciplinario de Ciencias Marinas , Mexico. Her work focuses on marine sciences, with a particular interest in the sustainable use and conservation of marine resources. She actively contributes to interdisciplinary research aimed at understanding and protecting ocean ecosystems.

Author Profile

Google Scholar

🎓Early Academic Pursuits

Rosabel Camacho Gastélum’s academic journey began with a strong foundation in biology, leading to her Bachelor’s degree in Biology with a specialization in Marine Biology. Her undergraduate thesis,  showcased her early interest in marine ecosystems. She furthered her education with a Master’s degree in Marine Resource Management, completing her thesis on “Identification of fish larvae from the family Sciaenidae in the Upper Gulf of California using molecular markers.” Currently, she is pursuing her PhD in Marine Sciences at Centro Interdisciplinario de Ciencias Marinas , Mexico.

🔬Professional Endeavors

Rosabel’s professional experience includes working as a Research Assistant on a vessel . During this tenure, she contributed to the collection of biological samples and physical data from the southern part and entrance of the Gulf of California. Her expertise in marine biology and research skills have been valuable assets in her professional endeavors.

📚Contributions and Research Focus

Rosabel has made significant contributions to the field of marine biology through her research and publications. Some notable publications include:

– Molecular identification and morphological description of Micropogonias megalops, Cynoscion othonopterus, C. reticulatus, and Menticirrhus in Mitochondrial DNA Part A (2017)
– Interannual variations of environmental factors and their effects on larval fish habitats in the Upper Gulf of California during early summer in Continental Shelf Research (2020)
– Horizontal and vertical distribution of fish larvae in the main entrance of Bahía de La Paz, Gulf of California (October 2022) in Continental Shelf Research (2025)

Her research focuses on marine species identification, ecology, and conservation, with a particular emphasis on the Gulf of California. Rosabel has also presented her research at conferences and science fairs, including a presentation on the genetic identification of fish larvae from the family Sciaenidae in the Upper Gulf of California.

📢Impact and Influence

Rosabel’s research has the potential to inform conservation efforts and management of marine resources in the Gulf of California. Her work on fish larvae identification and ecology can contribute to a better understanding of marine ecosystems and the impacts of environmental changes. By sharing her research with academic and general audiences, Rosabel is helping to advance the field of marine biology and promote awareness about the importance of marine conservation.

✍️Notable Publications

Horizontal and vertical distribution of fish larvae in the main entrance of Bahía de La Paz, Gulf of California (October 2022).

Author: R Camacho-Gastélum, L Sánchez-Velasco, SPA Jiménez-Rosenberg,

Journal: Continental Shelf Research, 105510

Year: 2025

Identificación de larvas de peces de la familia Sciaenidae del Alto Golfo de California, mediante marcadores moleculares.

Huilong Wan | Material Science | Best Scholar Award

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Dr. Huilong Wan | Material Science | Best Scholar Award

Dr. Huilong Wan, Wuhan university, China

Dr. Huilong Wan, a Ph.D. candidate at Wuhan University, has made significant contributions to the field of electrical engineering through research in electromagnetic launch and pulsed power technologies. With nearly a decade of industry experience and multiple national project awards, he has demonstrated strong academic excellence, publishing in leading journals such as IEEE Transactions on Dielectrics and Electrical Insulation and Polymer. His innovative patent on electromagnetic stress devices and work on material aging under extreme conditions reflect both scientific depth and industrial relevance, making him a strong contender for the Best Research Scholar Award.

Author Profile

Scopus

🎓 Early Academic Pursuits

Dr. Huilong Wan’s academic journey began with a strong foundation in electrical engineering, nurtured by a passion for innovation and high-impact research. Currently a Ph.D. candidate at Wuhan University, one of China’s premier institutions, Dr. Wan has consistently demonstrated a deep intellectual curiosity and a commitment to solving real-world engineering challenges. His graduate studies focus on high-voltage engineering and material behavior under extreme operational conditions — areas vital for advancing modern power systems and reliability in electrical infrastructure. His academic path has been marked by both rigor and relevance, shaped by a desire to bridge the gap between theoretical research and practical engineering applications. This dual focus has guided his evolution from a student to a dynamic emerging scholar in the energy and materials domain.

🏗️ Professional Endeavors

Before embarking on his doctoral journey, Dr. Wan accumulated nearly ten years of professional experience at the Jiangxi Electric Power Design Institute, where he served as a key technical contributor to major infrastructure projects. His industry experience enriched his understanding of China’s power grid development and laid the groundwork for his subsequent research into power system durability and high-performance materials. He played a critical role in the design and implementation of large-scale transmission lines and renewable energy infrastructure. These include award-winning projects such as the Pingjiang Pumped Storage – Mengshan 500kV Transmission Line, and the Jiujiangshan Wind Farm, reflecting both the scale and complexity of the projects he engaged with. This unique blend of academic and field experience provides Dr. Wan with a rare ability to approach engineering problems with a holistic and application-oriented mindset.

🧪 Contributions and Research Focus

Dr. Wan’s primary research interests center around electromagnetic launch technology, pulsed power systems, and the aging and life assessment of insulation materials like glass fiber-epoxy composites under extreme electrical, thermal, and mechanical stress.

He has authored and co-authored peer-reviewed articles in reputable journals such as:

  • IEEE Transactions on Dielectrics and Electrical Insulation

  • High Voltage Engineering

  • Polymer

  • IEEE Sensors Journal

  • International Communications in Heat and Mass Transfer

These publications reflect his commitment to pushing the frontiers of knowledge in high-voltage insulation and energy system reliability. He has also filed a patent titled “An Equivalent Adjustable Electromagnetic Stress Continuous Impact Device”, showcasing his innovative approach to testing material durability.

🏅 Accolades and Recognition

Dr. Wan’s work has received consistent recognition at both national and institutional levels. His professional achievements include:

  • 2nd Prize (Excellent Design) – Pingjiang Pumped Storage 500kV Line

  • 2nd Prize – Jiangxi Yintan-Fuzhou-Luofang II 500kV Line

  • 2nd Prize (Power Industry Excellent Design) – Jiujiangshan Wind Farm

  • 3rd Prize – Fuzhou-Linchuan 220kV Line

These accolades underline his technical excellence and ability to contribute meaningfully to large-scale, high-impact engineering projects.

Additionally, one of his research publications appeared in SCI-JCI Q1 journals (2025 IF: 4.5), reinforcing his position as a rising researcher with international visibility.

🌍 Impact and Influence

Dr. Wan’s work directly contributes to enhancing the efficiency, safety, and longevity of electrical systems in an era where renewable integration and smart grids are reshaping the energy landscape. His innovations in pulsed power systems and insulation material assessment offer tools for utilities and designers to mitigate risks and extend the life of critical infrastructure. Furthermore, through his combined roles in academia and industry, Dr. Wan serves as a bridge between theory and practice, influencing the next generation of power system research and design. His involvement in national-level projects funded by the National Natural Science Foundation of China illustrates his growing influence in China’s scientific and technological advancement.

🌟 Legacy and Future Contributions

Looking forward, Dr. Wan aspires to expand his research into multifunctional composite materials, AI-assisted diagnostics for insulation aging, and advanced testing devices for extreme condition simulation. His goal is not only to contribute new knowledge but also to build scalable solutions that can be implemented in both urban and rural energy systems across the globe. He envisions a future where high-voltage systems are more resilient, self-monitoring, and environmentally adaptive — a vision he is well-positioned to realize, given his expertise and drive. As a committed scholar and engineer, Dr. Wan is on track to become a thought leader in high-voltage power systems and material reliability, leaving a lasting legacy in academia, industry, and national energy policy. Dr. Wan’s work has received consistent recognition at both national and institutional levels. His professional achievements include:

  • 2nd Prize (Excellent Design) – Pingjiang Pumped Storage 500kV Line

  • 2nd Prize – Jiangxi Yintan-Fuzhou-Luofang II 500kV Line

  • 2nd Prize (Power Industry Excellent Design) – Jiujiangshan Wind Farm

  • 3rd Prize – Fuzhou-Linchuan 220kV Line

These accolades underline his technical excellence and ability to contribute meaningfully to large-scale, high-impact engineering projects. Additionally, one of his research publications appeared in SCI-JCI Q1 journals (2025 IF: 4.5), reinforcing his position as a rising researcher with international visibility.

🌍 Impact and Influence

Dr. Wan’s work directly contributes to enhancing the efficiency, safety, and longevity of electrical systems in an era where renewable integration and smart grids are reshaping the energy landscape. His innovations in pulsed power systems and insulation material assessment offer tools for utilities and designers to mitigate risks and extend the life of critical infrastructure. Furthermore, through his combined roles in academia and industry, Dr. Wan serves as a bridge between theory and practice, influencing the next generation of power system research and design. His involvement in national-level projects funded by the National Natural Science Foundation of China illustrates his growing influence in China’s scientific and technological advancement.

🌟 Legacy and Future Contributions

Looking forward, Dr. Wan aspires to expand his research into multifunctional composite materials, AI-assisted diagnostics for insulation aging, and advanced testing devices for extreme condition simulation. His goal is not only to contribute new knowledge but also to build scalable solutions that can be implemented in both urban and rural energy systems across the globe. He envisions a future where high-voltage systems are more resilient, self-monitoring, and environmentally adaptive — a vision he is well-positioned to realize, given his expertise and drive. As a committed scholar and engineer, Dr. Wan is on track to become a thought leader in high-voltage power systems and material reliability, leaving a lasting legacy in academia, industry, and national energy policy.

✍️Notable Publications

Design of Parallel Impact Mechanism Based on Electromagnetic Kinetic Energy

Author:  Huiling Wang, Dongsheng Qian, Feng Wang, Jiancheng Chen

Journal: Gaodianya Jishu High Voltage Engineering.

Year: 2025