Destayehu Durressa | Mechanical Design | Editorial Board Member

Assist. Prof. Dr. Destayehu Durressa | Mechanical Design | Editorial Board Member

Bahir Dar Institute of Technology, Ethiopia

Destayehu Addisu – Mechanical Engineer & Academic Professional

Destayehu Addisu is a seasoned mechanical engineer with over 11 years of professional experience in teaching, research, and academic leadership. He holds a B.Sc. degree in Mechanical Engineering from Arba Minch University (AMU), an M.Sc. in Mechanical Engineering (Mechanical Design) from Bahir Dar University, and is currently pursuing a Ph.D. in Mechanical Engineering (Mechanical Design) at Bahir Dar University, Ethiopia.

Destayehu has served as a lecturer at Assosa University, where he also held the position of Department Head in the College of Engineering. His expertise includes coordinating and managing academic activities, organizing review meetings, and leading teams with exceptional interpersonal and problem-solving skills.

In addition to his academic contributions, Destayehu is proficient in conducting situational assessments, project evaluation, qualitative and quantitative data analysis, and reporting. He has a strong aptitude for visualizing data, building relationships with stakeholders, and driving collaborative efforts.

Destayehu is particularly interested in fiber-reinforced polymer research and development, as well as opportunities to contribute to international conferences and professional memberships, leveraging his extensive technical knowledge and teaching experience.

 

Miao shuaijie | Failure Analysis and Damage Mechanics | Best Researcher Award

Dr. Miao shuaijie | Failure Analysis and Damage Mechanics | Best Researcher Award

Doctorate at Beijing Jiaotong University, China

Profile:

Current Position 🌟

Shuaijie Miao is currently a doctoral candidate at Beijing Jiaotong University, where he is pursuing his PhD in Road and Railway Engineering. His research focuses on innovative health assessment technologies and understanding the material damage mechanisms of transit facilities, aiming to enhance the safety and reliability of transportation systems. Through his academic and practical experiences, Miao is committed to addressing complex scientific challenges in the transportation sector.

Academic Background 🎓

Shuaijie holds a master’s degree in Traffic Information Engineering, where he developed a strong foundation in both the theoretical and practical aspects of transportation systems. He also possesses a bachelor’s degree in Traffic Engineering, which equipped him with essential knowledge about traffic flow, infrastructure, and transportation safety. During his master’s studies, he was fortunate to receive joint training at the Institute of Semiconductors of the Chinese Academy of Sciences, where he was involved in the development of optical fiber sensors and their applications in detection technology. This experience has significantly enhanced his technical skills and research capabilities.

Ongoing Research 🛤️

Miao’s current research projects are aligned with national priorities in transportation infrastructure and focus on the following key areas:

Typical Disease Mechanism and Intelligent Identification Technology of Ballastless Track (2022JBQY009): This ongoing project, funded by the Fundamental Research Funds for the Central Universities, aims to identify and analyze the mechanisms causing damage in ballastless tracks.

Accurate Detection and Intelligent Identification Technology of Hidden Defects of High-Speed Railway Subgrade Structure (2022YFB2603302): As part of a National Key R&D Program, this project focuses on developing technologies to detect hidden defects in high-speed railway subgrade structures, which are critical for ensuring the safety and longevity of railway infrastructure.

Research on the Mechanism and Control Methods of Performance Degradation of Ballastless Track Structures (2024JBGP009): This national-level platform project aims to study the degradation mechanisms affecting ballastless track structures and to devise effective control methods.

Research Interests 🔍

Miao’s research interests lie at the intersection of transportation engineering and advanced sensing technologies. He is particularly focused on the following areas:

  • Health assessment technologies for transportation infrastructure
  • Material damage mechanisms of transit facilities
  • Innovative sensing and detection technologies in engineering applications

His work aims to address pressing challenges in the maintenance and safety of transportation systems, ultimately contributing to the development of smarter and more resilient infrastructure.

Scholarships and Awards 🏆

Throughout his academic journey, Miao has been recognized for his outstanding contributions to research and education. His involvement in two key national scientific research projects has not only honed his research skills but also positioned him as a valuable contributor to the field of transportation engineering. He has received scholarships for his academic performance, reflecting his dedication and commitment to excellence.

Professional Associations 🌐

Shuaijie Miao is an active member of several professional associations related to transportation engineering. These memberships allow him to stay informed about the latest developments in the field and to network with other professionals. Engaging with these communities also enables him to share his research findings and collaborate on various projects.

Training & Workshops 📖

To further enhance his skills and knowledge, Miao has participated in various training programs and workshops related to transportation engineering and sensor technologies. These experiences have equipped him with practical skills that complement his academic knowledge, making him a well-rounded researcher.

Oral Presentations 🎤

Miao has presented his research findings at several conferences, showcasing his ability to communicate complex ideas effectively. His presentations have received positive feedback from peers and experts, highlighting his capability to engage audiences with his insights into transportation infrastructure and health assessment technologies.

Success Factors 🌈

Shuaijie Miao attributes his success to several factors, including his passion for research, dedication to problem-solving, and collaboration with esteemed mentors and colleagues. His proactive approach to learning and continuous improvement has allowed him to excel in his studies and research endeavors.

Publications & Laboratory Experience 🧪

With a robust publication record and hands-on laboratory experience, Miao has demonstrated his ability to conduct impactful research. His work on optical fiber sensors and their applications in transportation systems has positioned him as a promising researcher in the field. Miao continues to explore innovative solutions to improve the safety and efficiency of transportation infrastructure, aiming to make a lasting impact on the industry.

📖Publications:

Paper Title: Detection of ballastless track interlayer gap based on vehicle’s multivariate dynamic response and deep learning

  • Authors: Miao, S., Gao, L., Nian, F., Xin, T., Zhong, Y.
  • Journal: Mechanical Systems and Signal Processing
  • Year: 2025

Paper Title: Influence of differential deterioration of random track irregularity at different wavelengths on high-speed train safety

  • Authors: Tong, F., Gao, L., Hou, B., Cai, X., Xin, T.
  • Journal: International Journal of Rail Transportation
  • Year: 2024

Paper Title: Ballastless track mortar layer void detection by high-order statistical analysis of axle box acceleration

  • Authors: Miao, S., Gao, L., Tong, F., Ma, C., Chen, Z.
  • Journal: Measurement: Journal of the International Measurement Confederation
  • Year: 2023

Paper Title: Experimental study on fatigue performance of fully assembled ballastless track structure under vehicle cyclic load

  • Authors: Miao, S., Zhong, Y., Gao, L., Xiao, Y., Zhang, Z.
  • Journal: Zhongnan Daxue Xuebao (Ziran Kexue Ban)/Journal of Central South University (Science and Technology)
  • Year: 2023

Paper Title: Research on high precision optical fiber acoustic emission system for weak damage location on concrete

  • Authors: Miao, S., Gao, L., Tong, F., Zhong, Y.
  • Journal: Construction and Building Materials
  • Year: 2022

 

 

Seniye Karakaya | Composite Materials Science | Best Researcher Award

Seniye Karakaya | Composite Materials Science | Best Researcher Award

Academician/Research Scholar, Associate Prof. Dr., Eskisehir Osmangazi University/Physics Department

Professional Profiles:

Early Academic Pursuits:

Seniye Karakaya began her academic journey with a focus on materials science, particularly thin film technology and semiconductor physics. Her early academic pursuits likely involved coursework in physics, materials engineering, and nanotechnology, providing the foundational knowledge for her future research.

Professional Endeavors:

Karakaya's professional career appears rooted in academia, likely starting as a researcher or an assistant professor, gradually advancing to her current position as an Associate Professor. Her expertise revolves around the deposition and characterization of thin films using various techniques such as ultrasonic spray pyrolysis and sol-gel synthesis, aiming at enhancing the properties of materials like ZnO, CdO, and their doped derivatives.

Contributions and Research Focus:

Her contributions to the field of materials science and optoelectronics have been substantial. Karakaya's research primarily revolves around exploring the structural, optical, and electrical properties of thin films, especially focusing on doping techniques to improve functionalities for optoelectronic applications. Her work spans various materials like ZnO, CdO, and their derivatives, employing methods such as spectroscopic ellipsometry and spray deposition techniques to analyze and enhance material properties.

Accolades and Recognition:

Specific accolades or awards she has received may not be explicitly mentioned in the provided information, but her publication record in reputable journals and her involvement in pioneering research likely earned her recognition within the scientific community. Her publications in renowned journals stand as testament to the quality and impact of her work.

Impact and Influence:

Karakaya's research has likely impacted the fields of materials science and optoelectronics by providing insights into the development of improved thin film technologies for various applications. Her studies on doping techniques and deposition methods may have practical implications in industries related to solar cells, sensors, and photocatalysis.

Legacy and Future Contributions:

Seniye Karakaya's legacy seems to be tied to advancements in thin film technology and materials science. Her work sets a foundation for future researchers in understanding and improving the functionalities of materials crucial for modern electronic devices and renewable energy applications. In the future, her research may pave the way for more efficient and cost-effective optoelectronic devices and materials.

Notable Publications:

Effects of withdrawal speed on the structural and optical properties of sol–gel derived ZnO thin films. S Aydemir, S Karakaya, Journal of Magnetism and Magnetic Materials 373, 33-39, 2015, (37)

Boron doped nanostructure ZnO films deposited by ultrasonic spray pyrolysis. S Karakaya, O Ozbas, Applied Surface Science 328, 177-182, 2015 (29)

The effect of Al on structure, morphology and optical properties of network texture ZnO thin films synthesized using the sol–gel method, SAydemir, S Karakaya, Optik 126 (18), 1735-1739 2015, (14)

Effect of fluorine and boron co-doping on ZnO thin films: structural, luminescence properties and Hall effect measurements, S Karakaya, Journal of Materials Science: Materials in Electronics 29, 4080-4088, 2018 (9)

Spectroscopic ellipsometry studies of Al doped ZnO thin films deposited by ultrasonic spray pyrolysis technique, S Karakaya, Journal of Nanoelectronics and Optoelectronics 13 (5), 677-686, 2018 (6)

David Amilo | Computational Modeling and Simulation of FRPs | Young Scientist Award

David Amilo | Young Scientist Award -Award Winner 2023

Dr. David Amilo: Computational Modeling and Simulation of FRPs

"Congratulations, Dr. David Amilo, on receiving the Young Scientist Award for your exceptional work in Computational Modeling and Simulation of FRPs at the International Research Awards on Fiber Reinforced Polymer. Well-deserved recognition for your outstanding contributions!"

Professional Profiles:

Early Academic Pursuits:

His journey into academia began with internships at the Ministry of Works in Abakaliki and later at Jhopiego for Mother and Child Survival Program (MCSP). These experiences in statistics laid a solid foundation for his future academic endeavors.

Professional Endeavors:

From IT operations at Eko Electricity Distribution Company to teaching roles in mathematics at NPower, his professional path has been diverse. However, his pivotal step came as a lecturer at Near East University, where he delved deeper into mathematical modeling, epidemiology, optimization, machine learning, and data science.

Contributions and Research Focus:

His prolific research contributions span various domains of mathematics, particularly in mathematical modeling of epidemics, cancer studies, gene expression modeling, and optimization techniques. His fractional-order models for various diseases like colorectal cancer, lung cancer, and COVID-19 reflect his interdisciplinary approach, combining mathematics and medical science.

Accolades and Recognition:

Earning the Young Researcher Award at Near East University and being recognized as the best graduating student in Applied Mathematics showcase his academic prowess. Awards from national competitions and distinctions during his academic pursuits signify his dedication and excellence.

Impact and Influence:

His publications in reputable international journals and presentations at scientific conferences demonstrate his influence in the field of mathematical modeling, attracting attention to the applications of mathematics in medicine and epidemiology. His work contributes significantly to understanding and tackling various diseases using mathematical frameworks.

Legacy and Future Contributions:

His legacy lies in the advancement of mathematical modeling, particularly in disease dynamics and healthcare applications. His future contributions are anticipated to further bridge the gap between mathematics and medical sciences, potentially revolutionizing disease understanding, treatment, and control strategies through innovative mathematical approaches.

Notable Publications:

Citations:

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