Assist. Prof. Dr Vahid Jahangiri | Probabilistic Seismic Evaluation | Best Researcher Award

Assistant Professor, Department of Civil Engineering, Faculty of Engineering, University of Mohaghegh Ardabili, Iran

Vahid Jahangiri is an Associate Professor at the University of Mohaghegh Ardabili, located in Ardabil, Iran. With a strong focus on structural engineering, seismic performance, and advanced engineering technologies, he has become a prominent figure in civil engineering research. He has contributed to numerous groundbreaking studies related to the seismic behavior of structures, risk evaluation, and vibration control systems. His extensive work in the field has earned him recognition in both national and international academic circles. Jahangiri is actively involved in research collaborations, contributing to the advancement of engineering science through innovative methodologies and techniques.

Profile

Scopus

Strengths for the Award

Dr. Vahid Jahangiri demonstrates strong qualifications for the Best Researcher Award due to several key strengths:

1. Innovative Research Focus: Jahangiri has conducted extensive research on crucial areas such as seismic performance, vibration control, and risk evaluation of civil infrastructure. His work involves cutting-edge techniques like machine learning to predict seismic responses and the application of semi-active tuned mass dampers for structural systems. These innovations are at the forefront of improving structural safety and resilience, particularly in earthquake-prone regions.
2. Extensive Impact: With 198 citations from 167 documents, Dr. Jahangiri’s research is widely recognized in the field of civil engineering. His publications have appeared in top-tier journals such as Engineering Structures, Journal of Constructional Steel Research, and Bulletin of Earthquake Engineering, indicating high-quality contributions to the field. His research also addresses practical engineering issues, such as progressive collapse mitigation and seismic risk assessment for aging infrastructure, making his work highly relevant to current engineering challenges.
3. Collaborative Work: Jahangiri’s research is characterized by collaboration with a diverse group of co-authors, including prominent researchers in the field. This not only highlights his ability to work effectively in multidisciplinary teams but also shows the global impact of his research through various international collaborations.
4. Recent Publications: His recent work (2024, 2023) shows a commitment to staying at the cutting edge of civil engineering research, with papers like “Machine learning-based prediction of seismic response of elevated steel tanks” and “Vibration control of steel frames with setback irregularities” showcasing his focus on applying new technologies to solve real-world problems.

Areas for Improvement

1. Broader Research Topics: While Dr. Jahangiri excels in seismic engineering, his research could benefit from expanding to other key areas of civil engineering, such as sustainable construction practices, smart city infrastructure, and environmental impact assessment. Broadening his research scope could enhance his contributions to the field.
2. Visibility in Other Engineering Disciplines: Although his work is widely cited within seismic and structural engineering, increasing visibility in broader engineering forums and interdisciplinary journals could help amplify the societal impact of his work, especially in the fields of sustainability and climate resilience.
3. Public Outreach and Knowledge Dissemination: Dr. Jahangiri has a significant academic presence, but improving the dissemination of his research to practitioners and policy-makers could elevate the real-world impact of his work. Engaging in more public outreach, industry partnerships, and translating research into practical applications could be areas for growth.
4. Mentorship and Leadership Roles: Though Dr. Jahangiri has shown strong leadership in research, there may be further opportunities to mentor young researchers and students, and to lead large, multi-disciplinary research teams or national-level projects, enhancing his academic legacy.

Education

Vahid Jahangiri completed his Bachelor’s and Master’s degrees in Civil Engineering at the University of Mohaghegh Ardabili. He later earned his Ph.D. in Structural Engineering, specializing in earthquake engineering and structural dynamics. During his academic journey, he gained expertise in various advanced areas, including seismic response analysis, vibration control, and risk evaluation of infrastructure. His dedication to the field of engineering led him to pursue extensive research and hands-on work to address real-world challenges in structural safety and resilience.

Experience

Dr. Vahid Jahangiri has over a decade of experience in academia and research. He has taught various civil engineering courses, including structural analysis, earthquake engineering, and seismic design. As a researcher, his work spans a wide range of topics, from advanced structural behavior to innovative solutions in vibration control systems for tall buildings and bridges. He has also collaborated with industry leaders on major projects, bringing his academic expertise to practical applications in civil infrastructure. Jahangiri’s work has been published extensively in peer-reviewed journals, reflecting his significant contributions to the advancement of the field.

Awards and Honors

Dr. Jahangiri has received numerous accolades for his research and contributions to civil engineering. He has been recognized for his innovative work in seismic risk assessment, vibration control, and structural performance evaluation. His research has earned him multiple awards at national and international conferences, along with recognition from prestigious journals. As a leading researcher, he has received grants to support his work in earthquake engineering and structural safety. These honors reflect his consistent commitment to advancing the field and his ability to bridge academic research with real-world applications.

Research Focus

Dr. Vahid Jahangiri’s research primarily focuses on seismic performance, risk evaluation, and vibration control in civil engineering structures. He is particularly interested in the response of buildings, bridges, and pipelines to earthquake-induced forces. His work includes developing predictive models, evaluating the reliability of structural systems, and designing solutions to mitigate progressive collapse and improve structural resilience. Jahangiri is also exploring the use of machine learning in structural engineering to predict seismic behavior and optimize design strategies. His research aims to improve the safety, reliability, and sustainability of infrastructure in earthquake-prone regions.

Publication Top Notes

1. Machine learning-based prediction of seismic response of elevated steel tanks 🤖🌍
2. Effect of Chevron, Single and Cross Bracing in Optimized Planar Steel Braced Frames on the Mitigating Progressive Collapse 🏗️⚙️
3. Vibration control of steel frames with setback irregularities equipped with semi-active tuned mass dampers 🏢🔧
4. Seismic performance comparison of tall buildings equipped with viscous, viscoelastic, friction, and metallic yielding dampers including the effect of foundation flexibility 🏙️💡
5. Appropriate intensity measures for probabilistic seismic demand estimation of steel diagrid systems 🌍🔍
6. Seismic reliability and limit state risk evaluation of plain concrete arch bridges 🏰💥
7. Evaluation of Plasco Building fire-induced progressive collapse 🔥🏢
8. Correlation of spectral acceleration values in Iranian ground motions 🌍📈
9. Intensity measure-based probabilistic seismic evaluation and vulnerability assessment of ageing bridges 🌉⚠️
10. Reliability-based seismic evaluation of buried pipelines subjected to earthquake-induced transient ground motions 🌍💧

Conclusion

Dr. Vahid Jahangiri is highly deserving of the Best Researcher Award for his innovative contributions to the field of civil engineering. His research, particularly in seismic risk assessment, structural reliability, and vibration control, addresses critical challenges in infrastructure safety and resilience. His ability to apply advanced technologies, like machine learning, to solve real-world problems reflects his leadership in engineering innovation. However, expanding his research focus to encompass broader areas and increasing the public visibility of his work could further elevate his impact. With his current trajectory, Dr. Jahangiri is poised to remain a key figure in civil engineering research, making significant strides toward improving global infrastructure and safety.