Shushen Ye | Engineering | Best Researcher Award

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Mr. Shushen Ye | Engineering | Best Researcher Award

Huaqiao University – Xiamen Campus | China

Shushen Ye is a dedicated graduate student at the College of Civil Engineering, Huaqiao University, China. His academic journey reflects a focused pursuit of excellence in structural engineering, especially in the realm of vibration control. His research delves into nonlinear stochastic vibration mechanisms in high-pier structures, aiming to innovate solutions for real-world infrastructure challenges. With a strong foundation in hydraulic engineering and a keen interest in structural dynamics, Shushen Ye is poised to contribute significantly to the civil engineering research community.

Professional profile👤

ORCID

Strengths for the Awards✨

  1. Focused Research Topic: Shushen Ye is conducting research on a niche and highly relevant area—random vibration analysis and control of high-pier structures. This field has significant implications for structural safety in civil engineering, particularly in seismic and wind-prone areas.

  2. Publication in a Reputed Journal: He has successfully published a research article in the International Journal of Dynamics and Control (Springer), which is indexed and recognized in engineering fields. The publication demonstrates originality by proposing an innovative Nonlinear Energy Sink Inerter (NESI) that reduces mass requirements—an advancement over traditional vibration mitigation techniques.

  3. Clear Technical Contribution: The research contributes to solving a known engineering problem (mass inefficiency in NES) and offers potential for real-world application in structural design.

Areas for Improvement

  1. Limited Research Output: Currently, there is only one publication listed, and no record of other ongoing/completed projects, industry collaborations, or patents. This limits the evidence of sustained research productivity.

  2. Citation Metrics and Visibility: There are no details on citation indices, h-index, or broader academic reach (e.g., Google Scholar or ResearchGate profile). Building these would strengthen the nomination.

  3. Lack of Academic Engagement: There is no information on editorial roles, professional memberships, or collaborations. These are typically considered markers of engagement and recognition in the research community.

🎓 Education

Shushen Ye is currently pursuing a Master’s degree in Civil Engineering (Hydraulic Engineering) at Huaqiao University, Fujian, China, with expected graduation in 2025. His academic coursework and research training are rooted in structural analysis, dynamic response modeling, and advanced control methods for civil infrastructure.

👨‍🎓 Experience

As a graduate student, Shushen Ye has immersed himself in advanced research on the random vibration analysis and vibration control of high-pier structures. Although he has not yet been formally employed in consultancy or industry projects, his graduate work showcases a practical understanding of nonlinear energy control systems and provides significant insights into modern structural engineering problems.

🔬 Research Interest On Engineering

Shushen Ye’s primary research interests include Structural Nonlinear Stochastic Vibration and Control, particularly applied to high-pier bridge structures. His work emphasizes developing and analyzing novel energy dissipation systems, such as the Nonlinear Energy Sink Inerter (NESI), which demonstrates promise in enhancing vibration suppression with reduced mass requirements compared to traditional systems.

🏅 Award

Shushen Ye is nominated for the Best Researcher Award in recognition of his novel contribution to vibration control strategies in civil engineering. His work on the NESI system introduces a significant improvement in structural safety, marking an impactful beginning to his research career. This nomination underscores his potential to be a future leader in the field of structural dynamics and earthquake engineering.

đź“š Publication

Shushen Ye has authored a research article in the International Journal of Dynamics and Control (Springer, 2025), titled “Vibration suppression of high-pier structures using NESI: A nonlinear approach”. This paper explores an innovative approach using the Nonlinear Energy Sink Inerter (NESI) and its effectiveness in controlling lateral vibrations of tall structures.
đź”— Read the full article here
đź“Ś Cited by: The paper is newly published and is yet to accumulate citations, but its relevance to earthquake-resistant design makes it a valuable future reference.

🧩 Conclusion

Shushen Ye stands out as a young, enthusiastic researcher whose innovative contributions to structural vibration control are commendable. His dedication to solving complex civil engineering challenges through analytical modeling and energy-efficient systems highlights his commitment to sustainable infrastructure development. This award nomination is a testament to his academic promise and emerging impact in the field.

Miqdad Hussain | Engineering | Best Researcher Award

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Mr. Miqdad Hussain | Engineering | Best Researcher Award

University of Shanghai for Science and Technology | Pakistan

Miqdad Hussain is a dedicated structural engineer with a keen interest in numerical simulation and the optimization of masonry and concrete structures. Currently based in Shanghai, China, he is pursuing a Master’s degree in Civil Engineering at the University of Shanghai for Science and Technology (USST). With strong technical skills, multilingual proficiency, and hands-on experience in both academia and industry, Miqdad aims to contribute to cutting-edge research in structural health monitoring and retrofitting.

Professional profile👤

Google Scholar

ORCID

Strengths for the Awards✨

  • Strong Academic Foundation & Research Focus:

    • Miqdad is pursuing a Master’s in Civil Engineering with a solid CGPA of 3.6/4 from a reputable Chinese university (USST).

    • His research focus on numerical simulation, UHPC (Ultra High-Performance Concrete), and structural optimization reflects current trends and demands in structural engineering.

  • Published Research Output:

    • He has already published in reputable journals such as IJRES and has an accepted paper in the UCAS Indexed Journal of Umm Al-Qura University.

    • Topics are diverse and impactful, including masonry wall performance, material behavior at elevated temperatures, and fiber modeling using Python.

  • Technical Proficiency:

    • Proficient in industry-standard tools such as SAP2000, ETABS, STAAD.Pro, AutoCAD, and ABAQUS.

    • He demonstrates multi-language programming ability (Python, Maple) and technical writing skills—crucial for research dissemination.

  • Scholarships and Awards:

    • Recipient of the SGS Full Scholarship and Academic Excellence Award—showcasing academic merit and competitiveness.

  • Teaching and Leadership:

    • He has taught at school level, indicating communication and mentorship ability.

    • Participation in international conferences in both Pakistan and China reflects global exposure and research communication skills.

🎓 Education

Miqdad holds a Bachelor’s degree in Civil Engineering from Iqra National University, Peshawar, Pakistan (2015–2019), where he focused on fatigue behavior in reinforced concrete. He is now completing his Master’s in Civil Engineering at USST, China (Expected June 2025), with a CGPA of 3.6/4. His thesis involves Numerical Simulation to Investigate the Performance of Existing Masonry Walls Strengthened by Ultra High-Performance Concrete (UHPC) Layer. His academic portfolio includes rigorous coursework in nonlinear analysis, FEM, and advanced concrete/steel structures.

🧠 Experience

Miqdad’s experience spans academia, research, and fieldwork. As a Graduate Researcher at USST (2022–Present), he led simulation-based investigations into UHPC-strengthened masonry. Earlier, he worked as a Site Engineer for contractors in Pakistan, gaining practical insight into construction. Additionally, he served as a Lecturer in Math & Physics, demonstrating leadership in education. His blend of field experience and research makes him well-rounded in structural engineering.

🔬 Research Interest On Engineering

Miqdad’s research interests lie in structural health monitoring, retrofitting techniques, numerical modeling, and sustainable building materials. He is particularly focused on how ultra-high-performance concrete can enhance the strength and durability of aging or unreinforced masonry walls. His work emphasizes performance optimization and fire resistance analysis under elevated temperatures. 🔎🧪

🏅 Awards & Honors

Miqdad has received several accolades, including the prestigious SGS Full Scholarship for his Master’s program at USST (2022–2025). He also earned First Position in Intermediate Studies and the Academic Excellence Award at USST in 2024. His academic and research achievements reflect his commitment to excellence and innovation in civil engineering. 🏆🎖️

đź“š Publications

  1. Miqdad Hussain, Bin Peng. “Simulating Influence of Different Mortar types on Performance of Masonry Wall” International Journal of Research in Engineering and Science (IJRES), Vol. 12(05), 2024, pp. 303–315.
    đź“ť Cited by 3 articles

  2. Xiakun Lin, Surendra Kumar Mahato, Miqdad Hussain. “Enhancing Teaching of Robotics through Computational Modelling” IJRES, Vol. 12(06), 2014, pp. 16–20.
    đź“ť Cited by 4 articles

  3. Miqdad Hussain, Bin Peng. “Numerical Simulation to Investigate the Performance of Existing Masonry Walls Strengthened by Ultra High-Performance Concrete (UHPC) Layer.” Journal of Umm Al-Qura University for Engineering and Architecture (Accepted, UCAS Indexed).
    đź“ť Cited by: In review

  4. Upcoming: “Parametric Study of UHPC as a Strengthening Material for Unreinforced Masonry Walls using Detailed Micro-Modeling Approach.” (Ready for Submission)
    đź“ť Expected to submit in Q2 2025

🔚 Conclusion

Miqdad Hussain is a motivated and talented structural engineer whose blend of technical expertise, research acumen, and cross-cultural experience equips him for advanced studies and impactful innovation. With a vision to strengthen global infrastructure through smart materials and simulations, Miqdad is well-positioned to contribute to structural resilience in the face of modern engineering challenges.