Mohit Kumar | Geotechnical | Best Researcher Award

Posted on by Academic achievements

Dr. Mohit Kumar | Geotechnical | Best Researcher Award

Dr. Mohit Kumar | Geotechnical – Institute Post-doctoral Fellow (IPDF) at Indian Institute of Technology Kanpur, India

Dr. Mohit Kumar is a distinguished Post-Doctoral Fellow at the Indian Institute of Technology (IIT) Kanpur, specializing in geotechnical engineering with a focus on seismic stability analysis, caisson foundations, and soil-structure interactions. With a strong academic background and extensive research experience, he has made significant contributions to the field of civil engineering. His work integrates theoretical, numerical, and experimental approaches to address complex geotechnical challenges, demonstrating his commitment to advancing sustainable infrastructure solutions. Dr. Kumar’s research has been widely recognized in top-tier journals, highlighting his expertise in geotechnical stability and earthquake-resistant foundation designs.

Professional Profile

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Education

Dr. Mohit Kumar has a solid academic foundation, having earned his Ph.D. in Civil Engineering from IIT Roorkee in 2022. His doctoral research focused on seismic earth pressure coefficients for caissons, providing valuable insights into geotechnical stability under earthquake conditions. Prior to this, he completed his M.Tech. from IIT Roorkee in 2017, specializing in geotechnical engineering, and obtained his B.Tech. from the National Institute of Technology (NIT) Patna in 2014. His early education at Loyola High School laid the groundwork for his passion for engineering and research, reflected in his academic excellence throughout his career.

Experience

Dr. Kumar has amassed extensive experience in both academia and applied research. Currently serving as a Post-Doctoral Fellow at IIT Kanpur, he is actively involved in cutting-edge research related to geotechnical earthquake engineering and foundation stability. His past roles include research collaborations at IIT Roorkee, where he contributed to various projects focusing on soil-structure interactions, seismic analysis, and stability of geotechnical structures. Additionally, he has served as a mentor and instructor for graduate students, sharing his expertise in numerical modeling, finite element analysis, and experimental geotechnics.

Research Interests

Dr. Kumar’s research interests are centered around geotechnical earthquake engineering, soil-structure interaction, and foundation stability under dynamic conditions. His work particularly focuses on seismic stability analysis of caissons, numerical modeling of geotechnical systems, and the development of advanced analytical techniques for evaluating earth pressures. His studies aim to enhance the safety and resilience of infrastructure, especially in seismic-prone regions. By integrating theoretical advancements with practical applications, he contributes to the ongoing development of sustainable and earthquake-resistant engineering solutions.

Awards and Recognitions

Dr. Mohit Kumar has received numerous accolades for his outstanding contributions to geotechnical engineering. His research publications in high-impact journals have been widely cited, reflecting the significance of his work in the academic and professional community. He has been an active participant in international conferences, presenting innovative findings on seismic stability and foundation engineering. In addition, he has received institutional recognition for his academic excellence and research contributions, solidifying his reputation as a leading researcher in the field.

Publications

  1. 📍 Mohit Kumar & Jagdish P. Sahoo (2025). Discussion on “Stability of Slopes in Partially Saturated Soils: Incorporating the Combined Effects of Seismic Forces and Pore Water Pressure.” Soil Dynamics and Earthquake Engineering, Elsevier, UK. [Impact Factor: 4.2] [DOI: 10.1016/j.soildyn.2025.109295]
  2. 📍 Kaustav Chatterjee & Mohit Kumar (2024). “Recent Advancements in Static and Seismic Stability Analysis of Caissons.” Indian Geotechnical Journal, Springer, India. [Impact Factor: 1.4] [DOI: 10.1007/s40098-023-00779-4]
  3. 📍 Mohit Kumar & Kaustav Chatterjee (2023). “Seismic Passive Earth Pressure Resistance for Caisson in Layered Soil Using Modified Pseudo-Dynamic Approach.” International Journal for Numerical and Analytical Methods in Geomechanics, Wiley, UK. [Impact Factor: 4.0] [DOI: 10.1002/nag.3512]
  4. 📍 Mohit Kumar & Kaustav Chatterjee (2023). “Load Sharing Behaviour of Caisson Foundations in Layered Soil Under Seismic Conditions.” International Journal of Geomechanics, ASCE, USA. [Impact Factor: 3.918] [DOI: 10.1061/IJGNAI/GMENG-8195]
  5. 📍 Mohit Kumar & Kaustav Chatterjee (2023). “Modified Pseudo-Dynamic Based Soil-Structure Interaction of Caisson with a Novel 3D Failure Wedge.” Computers and Geotechnics, Elsevier, UK. [Impact Factor: 5.3] [DOI: 10.1016/j.compgeo.2022.105079]
  6. 📍 Mohit Kumar & Kaustav Chatterjee (2022). “Seismic Stability Analysis of Caissons Under Earthquake Forces Considering 3-D Log-Spiral Failure Surface.” Natural Hazards Review, ASCE, USA. [Impact Factor: 4.2] [DOI: 10.1061/(ASCE)NH.1527-6996.0000588]
  7. 📍 Kaustav Chatterjee, Deepankar Choudhury & Mohit Kumar (2022). “Influence of Depth of Liquefiable Soil Layer on Dynamic Response of Pile Group Subjected to Vertical Load.” Bulletin of Earthquake Engineering, Springer, Netherlands. [Impact Factor: 4.6] [DOI: 10.1007/s10518-021-01253-3]

Conclusion

Dr. Mohit Kumar is a dedicated researcher and scholar whose work has significantly contributed to the field of geotechnical engineering. His expertise in seismic stability analysis and foundation engineering has positioned him as a leader in his domain. With a strong academic record, extensive research output, and a commitment to advancing geotechnical knowledge, he continues to impact the engineering community positively. His contributions in seismic analysis and soil-structure interaction are not only academically profound but also have real-world applications in ensuring safer and more resilient infrastructure. His work stands as a testament to his dedication to scientific excellence and engineering innovation.

 

 

 

Zilong she | Mine geophysics | Best Researcher Award

Posted on by Academic achievements

Mr. Zilong she | Mine geophysics | Best Researcher Award

Zilong she – Mine geophysics : Master’s student at China University of Mining and Technology, China

Zilong She is a dedicated master’s student and emerging researcher at the China University of Mining and Technology. With a strong foundation in geophysical exploration and mine safety, Zilong has been an active contributor to advancing safe and effective mining practices. Working under the National Key Laboratory of Intelligent Construction and Healthy Operation and Maintenance in Deep Space, he has quickly distinguished himself through innovative research in seismic-electric detection and distributed fiber-optic acoustic wave sensing. His work addresses critical safety concerns in mining, focusing on the damage mechanism of coal bed roofs and stress monitoring methods. Zilong’s research has already led to multiple patents and publications in reputable journals, underscoring his potential as an influential researcher in his field.

Profile Verification

Scopus

Education

Zilong’s educational journey at the China University of Mining and Technology has been both rigorous and transformative. His studies have been closely tied to practical applications in mining safety, and he has leveraged the university’s advanced research facilities to conduct in-depth investigations in geophysical exploration. As a student in a nationally renowned institution, Zilong has benefited from a curriculum that balances theory with practical application, equipping him with the knowledge and skills essential for tackling complex mining issues. His education has provided a strong foundation for his work in cutting-edge technologies and innovative research methodologies.

Experience

Despite being in the early stages of his career, Zilong has accumulated significant research experience through his involvement in both academic and industry projects. He has contributed to two national research projects and four major research initiatives focused on advancing safety protocols and exploration technologies in the mining sector. Through these experiences, he has developed expertise in project management, data analysis, and applied research methods. His work on over-the-horizon detection and intelligent monitoring systems has positioned him as a key member of his research team. Zilong’s hands-on experience with real-world projects in collaboration with industry partners has deepened his understanding of mining safety issues and enriched his research perspective.

Research Interests

Zilong’s research is centered on geophysical exploration and mine safety, with a specialized focus on seismic-electricity detection methods and distributed fiber-optic sensing. His projects explore innovative ways to enhance the detection and monitoring of stress-induced fissures within mine structures. By integrating seismic and electric detection methods, he aims to improve the accuracy of fault and stress monitoring in coal beds. Zilong is particularly interested in the application of fiber-optic acoustic sensing to capture precise data on structural stability, which has practical implications for predicting and preventing accidents in mines. His research is driven by a commitment to developing technology that supports safe mining operations and protects workers in hazardous environments.

Awards

As a promising researcher, Zilong’s contributions have earned him recognition within his university and among his peers. Although he has not yet received formal awards, his work has been acknowledged through selection in high-impact research projects and his contributions to national projects. His mentors and colleagues regard him as a talented researcher with a strong aptitude for innovative problem-solving. As he continues to publish and expand his research portfolio, Zilong is likely to garner further accolades in recognition of his impactful work.

Publications

“Study on Coal Seam Roof Failure Based on Optical Fiber Acoustic Sensing and the Parallel Electrical Method” – MDPI Energies, 2023; cited by [5 articles].
“Methods for Identifying Effective Microseismic Signals in a Strong-Noise Environment Based on the Variational Mode Decomposition and Modified Support Vector Machine Models” – Applied Sciences, 2023; cited by [3 articles].
“Current Situation and Development Trend of Mining Underground Space Exploration Technology” – China Coal Journal, 2024; cited by [2 articles].

Conclusion

Zilong She stands as an exemplary candidate for the Best Researcher Award due to his strong academic background, hands-on research experience, and dedication to advancing safe mining practices. His contributions to seismic-electric detection and fiber-optic sensing technology offer practical solutions to critical safety challenges in mining. While still early in his career, Zilong has shown remarkable potential, evidenced by his patents, publications, and collaborative projects. Awarding him this recognition would acknowledge his accomplishments and encourage his continued contributions to the field of geophysical exploration and mine safety.

Tareq Abuawad | Geo-technical Engineering in Unsaturated Soils | Best Researcher Award

Posted on by Academic achievements

Dr. Tareq Abuawad | Geo-technical Engineering in Unsaturated Soils | Best Researcher Award

Staff Engineer | METCO | United states

Based on the provided information, here’s an evaluation of Tareq Ziad Thabet Abuawad’s suitability for the Research for Best Researcher Award, focusing on strengths, areas for improvement, and a concluding summary.

Strengths

  1. Diverse Research Experience:
    • Tareq has worked on various projects within geotechnical engineering, such as the impact of recycled glass on piers, the application of new CPTu/SCPTu correlations, and forensic investigation of pavement distress. This demonstrates a broad expertise in both theoretical and applied aspects of his field.
  2. Advanced Education:
    • His academic background is solid, with a BSc, MSc, and PhD, indicating a deep and sustained commitment to his field. His PhD, completed at the University of Oklahoma, is a strong indicator of research capability.
  3. Relevant Publications:
    • Tareq has several publications in reputable journals and conference proceedings. Notable works include studies on shear wave velocity in unsaturated soils and the application of in situ tests. This suggests he is actively contributing to the body of knowledge in his field.
  4. Teaching and Instruction Experience:
    • His roles as a teaching assistant and lab instructor show his ability to communicate complex concepts, which is crucial for a researcher who aims to impact both academic and practical aspects of engineering.
  5. Current Professional Role:
    • His current position as an engineer at Midwest Engineering and Testing Corporation suggests he is applying his research skills in a practical setting, bridging the gap between theory and practice.

Areas for Improvement

  1. Broader Research Impact:
    • While his publications are valuable, expanding his research into high-impact journals or more prestigious conferences could further enhance his visibility and influence in the field.
  2. Collaborations and Networking:
    • Increasing collaborations with other researchers or institutions could provide new perspectives and opportunities for his work. It might also lead to more interdisciplinary projects that could expand his research horizons.
  3. Research Funding and Grants:
    • Securing research grants and funding is crucial for advancing research and achieving substantial breakthroughs. Demonstrating a track record of successful grant applications could strengthen his profile.
  4. Public Engagement:
    • Engaging with the public or industry stakeholders more actively through outreach or public lectures could increase the societal impact of his research.

Short Bio

Tareq Ziad Thabet Abuawad is a dedicated geotechnical engineer with a robust academic and professional background. He earned his PhD from the University of Oklahoma, building on his earlier studies in civil and geotechnical engineering at the University of Jordan and the University of Birmingham. Currently, Tareq works as an engineer at Midwest Engineering and Testing Corporation, applying his extensive research knowledge to real-world engineering challenges. His professional journey reflects a commitment to advancing the field of geotechnical engineering through innovative research and practical applications.

Profile

SCOPUS

Education

Tareq Ziad Thabet Abuawad completed his Bachelor of Science in Civil Engineering at the University of Jordan in 2016. He then pursued a Master’s in Geotechnical Engineering and Management at the University of Birmingham, finishing in 2017. Following his master’s, he undertook a PhD in Geotechnical Engineering at the University of Oklahoma, which he completed in 2023. This educational trajectory has provided him with a comprehensive understanding of both theoretical and practical aspects of geotechnical engineering.

Experience

Tareq has garnered extensive research and teaching experience throughout his career. His early work included researching the effect of recycled glass on piers in 2017. During his time as a Research Assistant at the University of Oklahoma from 2018 to 2022, he focused on the applicability of new CPTu/SCPTu correlations with soil parameter evaluation and forensic investigation of pavement distress. Additionally, he served as a Teaching Assistant and Soil Mechanics Laboratory Instructor, which demonstrates his proficiency in educating and mentoring students. Currently, Tareq applies his expertise as an engineer at Midwest Engineering and Testing Corporation.

Research Interest

Tareq’s research interests lie in geotechnical engineering with a focus on soil behavior, shear wave velocity, and the application of advanced testing methods. His work explores the interaction of soils with structural elements and the use of recycled materials in engineering applications. He is particularly interested in improving soil parameter evaluation techniques and understanding the mechanics of unsaturated soils, which has led to several influential publications in the field.

Awards

While specific awards are not listed in the provided information, Tareq’s contributions to research and academia, including his impactful publications and teaching roles, underscore his commitment and potential for future recognition. His work on innovative geotechnical solutions and practical applications suggests a strong foundation for receiving accolades in his field.

Publication

Abuawad, Tareq, Gerald Miller, and Kanthasamy Muraleetharan. “Field and laboratory measurements of shear wave velocity in unsaturated soils.” E3S Web of Conferences, vol. 382, p. 03002. EDP Sciences, 2023.

Miller, Gerald A., Rodney W. Collins, Kanthasamy K. Muraleetharan, and Tareq Z. Abuawad. “Application of in situ tests in unsaturated soils to analysis of spread footings.” Soils and Rocks 44 (2021): e2021065321.

Miller, Gerald A., Tareq Z. Abuawad, and James Nevels. “Demonstration of the Applicability of the New CPTU/SCPTU Correlations With Soil Parameter Evaluation.” No. FHWA-OK-22-01. Oklahoma Department of Transportation, 2022.

Abuawad, Tareq. “Interpretation of shear wave velocity in unsaturated soils.” (2023).

Conclusion

Tareq Ziad Thabet Abuawad is a highly qualified candidate for the Research for Best Researcher Award. His extensive educational background, diverse research experience, and relevant publications highlight his expertise and dedication to geotechnical engineering. His teaching experience further underlines his ability to contribute to the academic community.

To enhance his candidacy, he could focus on increasing the impact and visibility of his research through broader publication avenues, expanding professional collaborations, securing research funding, and engaging more with the public and industry. Overall, Tareq’s achievements and ongoing contributions make him a strong contender for the award, reflecting both his past accomplishments and future potential.