Yashar Salami | Transportation Engineering | Young Scientist Award

Published on by Civil Engineering Awards

Assist. Prof. Dr. Yashar Salami | Transportation Engineering | Young Scientist Award

Assistant Professor | kapadokya university | Turkey

Assist. Prof. Dr. Yashar Salami is an accomplished researcher and academic in the field of cybersecurity and network engineering, recognized for his innovative contributions to secure communication technologies. He completed his Ph.D. in Computer Engineering with a specialization in Networking at Islamic Azad University, Qazvin Branch, where he became the institution’s first graduate in this specialization and earned a perfect dissertation score for his groundbreaking E3C software, the first tool globally to automatically analyze computational and communication complexity in authentication protocols. He subsequently completed a Postdoctoral Fellowship focused on enhancing the security of blockchain-based systems in fog and cloud environments. Dr. Salami has established a strong publication record, including research in high-impact journals such as Nature Scientific Reports, Springer, IEEE, Wiley, and Hindawi. His work has received significant scholarly attention, accumulating over 100 citations with notable h-index and i10-index achievements. Two of his journal articles were among the most visited works in their respective outlets, reflecting global interest in his research. He has also contributed to literature development through book authorship and translations in information security. His research expertise includes secure authentication mechanisms, cryptographic key-exchange protocols, secure offloading techniques for IoT and vehicular systems, fog and cloud security, blockchain-IoT integration, and metaheuristic optimization algorithms—fields critical to modern cybersecurity challenges. In academia, Dr. Salami serves as an Assistant Professor of Information Security at Cappadocia University, Turkey, and Visiting Lecturer at Khazar University, Baku, contributing to advanced teaching and student mentorship. He has completed more than 80 peer reviews for indexed journals and is an editorial board member for leading cybersecurity and web technology journals, further demonstrating his commitment to academic excellence. Driven by passion for innovation, Dr. Salami continues to expand the impact of secure digital systems, aiming to strengthen global cybersecurity resilience while shaping the next generation of information security professionals.

Research Profiles: ORCID | Google Scholar
Publications

Salami, Y., Khajevand, V., & Zeinali, E. (2023). Cryptographic algorithms: A review of the literature, weaknesses and open challenges. J. Comput. Robot, 16(2), 46–56.

Salami, Y., Khajehvand, V., & Zeinali, E. (2024). SOS-FCI: A secure offloading scheme in fog–cloud-based IoT. The Journal of Supercomputing, 80(1), 570–600.

Salami, Y., Khajehvand, V., & Zeinali, E. (2023). SAIFC: A secure authentication scheme for IOV based on fog–cloud federation. Security and Communication Networks, 2023(1), Article 9143563.

Salami, Y., Ebazadeh, Y., & Khajehvand, V. (2021). CE-SKE: Cost-effective secure key exchange scheme in Fog Federation. Iran Journal of Computer Science, 4(4), 305–317.

Salami, Y., & Khajehvand, V. (2021). LSKE: Lightweight secure key exchange scheme in fog federation. Complexity, 2021(1), Article 4667586.

Salami, Y., Khajehvand, V., & Zeinali, E. (2024). A new secure offloading approach for Internet of Vehicles in fog-cloud federation. Scientific Reports, 14(1), Article 5576.

Bhupati Kannur’ | Transportation Engineering | Best Researcher Award

Published on by Civil Engineering Awards

Dr. Bhupati Kannur | Transportation Engineering | Best Researcher Award

Assistant Professor | Coep Technological University Pune | Best Researcher Award

Dr. Bhupati Kannur’s research experience demonstrates strong expertise in pavement materials, sustainable construction, and transportation systems. His work focuses on developing innovative, eco-friendly concrete technologies and optimizing transportation infrastructure using scientific and experimental approaches. He has conducted extensive research on self-consolidating concrete (SCC) for rigid pavements, introducing novel variants such as semi-flowable SCC and low-fines SCC incorporating industrial by-products like fly ash, rice husk ash, and sugarcane bagasse ash. These studies emphasize enhancing the strength, durability, and environmental sustainability of pavement materials while aligning with Indian Road Congress standards. His projects also explore the reuse of agro-industrial waste, transforming it into cost-effective materials for urban and rural road construction. His experience spans academic research, experimental laboratory studies, and collaborative engineering projects, contributing to publications in high-impact international journals such as Construction and Building Materials and Journal of Materials in Civil Engineering (ASCE). Dr. Kannur has also filed and been granted a patent on self-consolidating concrete compositions using industrial waste for pavement applications, showcasing his applied innovation. His research interests further include pavement analysis and design, traffic engineering, and transportation planning. Beyond laboratory research, he has participated in multiple international conferences, presenting findings on sustainable infrastructure and material innovations. His involvement in academic institutions as a faculty member and research collaborator has allowed him to integrate applied research with teaching, mentoring, and technical training. Additionally, his role as a reviewer for reputed journals and memberships in professional bodies such as ASCE, IAENG, and ITE highlight his active engagement with the global engineering community. Overall, his research trajectory reflects a commitment to advancing sustainable pavement technologies, optimizing resource utilization, and improving transportation infrastructure performance through evidence-based engineering solutions.

Profile: Google Scholar | ORCID
Featured Publications

Kannur, B., & Chore, H. S. (2023). Low-fines self-consolidating concrete using rice husk ash for road pavement: An environment-friendly and sustainable approach. Construction and Building Materials, 365, 130036.

Kannur, B., & Chore, H. S. (2022). Strength and durability study of low-fines self-consolidating concrete as a pavement material using fly ash and bagasse ash. European Journal of Environmental and Civil Engineering, 26(13), 1–19.

Kannur, B., & Chore, H. S. (2021). Utilization of sugarcane bagasse ash as cement-replacing materials for concrete pavement: An overview. Innovative Infrastructure Solutions, 6(184), 1–17.

Kannur, B., & Chore, H. S. (2023). Semi-flowable self-consolidating concrete using industrial wastes for construction of rigid pavements in India: An overview. Journal of Traffic and Transportation Engineering (English Edition), 10(2).

Kannur, B., & Chore, H. S. (2023). Assessing semiflowable self-consolidating concrete with sugarcane bagasse ash for application in rigid pavement. Journal of Materials in Civil Engineering, 35(10), 04023358.