Dr. Hamed Bayesteh is an Assistant Professor at the University of Qom, Iran, with extensive experience in geotechnical and marine engineering. With over 19 years in the field, his work spans a diverse array of projects, including marine structures, soil improvement, deep foundations, and underground structures. His role encompasses project management, technical consulting, and academic instruction. Dr. Bayesteh is known for his expertise in soil stabilization methods, design of marine structures, and numerical modeling in geotechnical engineering.

Author Metrics

Google Scholar Profile

Dr. Bayesteh’s work is widely recognized in the field of geotechnical engineering, as reflected in his Google Scholar profile. He has published numerous articles in high-impact journals and has garnered significant citations for his research. His metrics demonstrate a strong influence and contribution to the scientific community, underscoring the impact of his research on both theoretical and practical aspects of geotechnical engineering.

• Citations: Dr. Bayesteh has accumulated a total of 420 citations for his work. Since 2019, his publications have been cited 369 times, indicating a robust and ongoing relevance of his research in recent years. These citations are a testament to the influence and importance of his contributions to the field.
• h-index: Dr. Bayesteh’s h-index is 14. This metric means that he has at least 14 publications that have each been cited at least 14 times. The h-index is a measure of both productivity and impact, suggesting that Dr. Bayesteh has a substantial number of impactful publications.
• i10-index: His i10-index stands at 16, which indicates that he has 16 publications with at least 10 citations each. This metric highlights the number of his works that have been cited frequently, underscoring the sustained interest and relevance of his research.

Education

Dr. Bayesteh’s academic background includes a Ph.D. in Geotechnical Engineering from the University of Tehran (2013), an MSc in Geotechnical Engineering from Bu Ali Sina University (2005), and a BSc in Civil Engineering from Isfahan University of Technology (2003). Additionally, he completed an MBA at the University of Tehran (2014), highlighting his interdisciplinary approach to engineering and management.

Research Focus

Dr. Bayesteh’s research focuses on various aspects of geotechnical engineering, including soil improvement techniques, marine geotechnics, deep foundations, and numerical methods. His work involves studying the behavior of soils under different conditions, developing new methods for soil stabilization, and improving the design of marine and coastal structures. His recent studies have explored the effects of high salinity on soil behavior, innovative construction methods, and the performance of different soil improvement techniques.

Professional Journey

Dr. Bayesteh’s professional journey spans over two decades in both academia and industry. He has held key roles such as project manager, technical and engineering manager, and geotechnical engineer. His career includes significant consulting work on various projects, including marine structures, petrochemical facilities, and urban infrastructure. His diverse experience bridges theoretical research and practical applications, demonstrating his broad expertise in the field.

Honors & Awards

Dr. Bayesteh has been recognized for his contributions to the field of geotechnical engineering through various awards and honors. His work is distinguished by its impact on both academic research and practical engineering solutions. While specific awards are not detailed in the provided information, his extensive list of publications and successful project outcomes reflect a high level of professional achievement and recognition.

Publications Noted & Contributions

Dr. Bayesteh has authored and co-authored numerous publications in renowned journals. His notable contributions include research on the performance of cement-stabilized marine clay, numerical simulations of soil behavior, and the impact of high salinity on soil stability. His work has been published in journals such as “Construction and Building Materials,” “Geotechnical and Geological Engineering,” and “Computational Particle Mechanics,” among others.

1. Experimental Investigation of the Bond Strength Between GFRP and Steel Bars and Soil-Cement

• Authors: Hamed Bayesteh, Ebrahim Safraei, Mohammad Sharifi
• Journal: Structures
• Volume: 65
• Article Number: 106761
• Year: 2024

Summary: This study explores the bond strength between Glass Fiber Reinforced Polymer (GFRP) bars and steel bars embedded in soil-cement mixtures. The research provides experimental data on the performance and interactions between these materials, which is crucial for designing reinforced structures that use soil-cement as a construction medium.

2. Effect of Particle Size Ratio and Fines Content on Drained/Undrained Behavior of Binary Granular Soil According to Confining Pressure and Packing Density: A DEM Simulation

• Authors: Fariborz Vahidi-Nia, Hamed Bayesteh, Mohammad Khodaparast
• Journal: Computational Particle Mechanics
• Volume: 11 (1)
• Pages: 141-167
• Year: 2024

Summary: This publication uses Discrete Element Method (DEM) simulations to investigate how particle size ratio and fines content affect the behavior of binary granular soils under different confining pressures and packing densities. The study contributes to understanding soil mechanics and improves predictions of soil behavior in various geotechnical applications.

3. Innovative Top-Down Construction Method with a Sequential Peripheral Wall

• Authors: Mohammad Rojhani, Hamed Bayesteh
• Journal: Geotechnical and Geological Engineering
• Volume: 41 (3)
• Pages: 1777-1799
• Year: 2023

Summary: This paper presents a new Top-Down construction method that incorporates a sequential peripheral wall. The method aims to improve efficiency and stability during construction, particularly in urban environments where space is limited. The innovative approach addresses common challenges associated with Top-Down construction.

4. A New Failure Criteria for Hollow-Bar Micropile Based on Full-Scale Static Load Tests

• Authors: Mohammad Fakharnia, Hamed Bayesteh
• Journal: Amirkabir Journal of Civil Engineering
• Volume: 52 (4)
• Pages: 919-934
• Year: 2020

Summary: This study introduces a new failure criterion for hollow-bar micropiles, developed through full-scale static load tests. The proposed criterion enhances the understanding of micropile behavior under load, which is essential for the design and safety of deep foundation systems.

5. The Role of Fines Content and Particle Size Ratio on the Load-Bearing Structure of Binary Granular Soil: A Micromechanical Approach

• Authors: Fariborz Vahidi-Nia, Hamed Bayesteh, Mohammad Khodaparast
• Journal: Computational Particle Mechanics
• Year: 2024 (forthcoming)

Summary: This forthcoming paper examines how fines content and particle size ratio influence the load-bearing capacity of binary granular soils using a micromechanical approach. The research provides insights into the granular soil’s structural behavior, which is critical for applications in geotechnical engineering.

Research Timeline

Dr. Bayesteh’s research timeline reflects a progression from early studies on soil behavior and dispersivity to more recent investigations into advanced soil improvement techniques and numerical simulations. His research has evolved to address contemporary challenges in geotechnical engineering, such as the impact of environmental conditions on soil stability and innovative construction methods.

Collaborations and Projects

Dr. Bayesteh has collaborated with various organizations and companies on significant projects, including the design and improvement of marine structures, soil stabilization for petrochemical facilities, and urban excavation projects. His collaborations with entities such as the Port & Maritime Organization (PMO), Asian Pacific, and various petrochemical companies highlight his role in advancing practical engineering solutions and enhancing infrastructure development.

Strengths of Dr. Hamed Bayesteh’s Research and Best Researcher Award:

1. High Citation Impact: With a total of 420 citations and a robust recent citation rate, Dr. Bayesteh’s research is highly influential in geotechnical engineering. His h-index of 14 and i10-index of 16 reflect both significant productivity and impact, demonstrating the relevance and importance of his work in advancing the field.
2. Diverse Research Focus: Dr. Bayesteh’s research covers a wide range of topics within geotechnical engineering, including soil stabilization, marine structures, and numerical modeling. This diversity showcases his ability to address various aspects of the field, contributing valuable insights to both theoretical and practical applications.
3. Innovative Contributions: His publications highlight contributions to innovative methods and techniques, such as the new Top-Down construction method and advanced soil improvement techniques. These contributions not only advance academic knowledge but also offer practical solutions to engineering challenges.
4. Cross-Disciplinary Expertise: Dr. Bayesteh’s background in both geotechnical engineering and business management (MBA) enhances his ability to manage projects effectively and integrate engineering solutions with practical management strategies, benefiting both academic and industrial applications.
5. Extensive Professional Experience: With over 19 years in the field, including roles in project management and technical consulting, Dr. Bayesteh’s extensive experience enriches his research. His practical insights and hands-on approach to solving real-world problems strengthen the impact and relevance of his research.

Areas for Improvement:

1. Increased Visibility in Broader Academic Circles: While Dr. Bayesteh has made significant contributions to geotechnical engineering, expanding his visibility in interdisciplinary and international academic circles could further enhance the reach and impact of his work.
2. Collaboration with Emerging Technologies: Embracing newer technologies such as artificial intelligence or machine learning in his research could open new avenues for innovation and enhance the analytical depth of his studies.
3. Enhanced Outreach and Public Engagement: Increasing efforts to communicate his research findings to a broader audience, including non-specialists and industry stakeholders, could further bridge the gap between academia and practical applications.
4. Diverse Publication Venues: Expanding the range of journals and conferences where his research is published could enhance the dissemination and impact of his work. Exploring high-impact journals outside his primary field might attract a wider audience.
5. Focus on Emerging Environmental and Sustainability Issues: Integrating more research on sustainable practices and environmental impact in geotechnical engineering could address pressing global challenges and enhance the societal relevance of his work.

Conclusion:

Dr. Hamed Bayesteh’s recognition as a Best Researcher highlights his substantial contributions to geotechnical engineering, underscored by his high citation impact, innovative research, and extensive professional experience. His diverse research focus and ability to address practical engineering challenges reinforce his stature in the field. However, there are opportunities for further growth, such as increasing visibility in broader academic circles, incorporating emerging technologies, and enhancing outreach efforts. Addressing these areas could amplify the impact of his research and strengthen his role as a leader in advancing geotechnical engineering.