huang wei | engineering vibration and noise control | Best Researcher Award

Posted on by ScienceFather

Prof. Dr. huang wei | engineering vibration and noise control | Best Researcher Award 

Professor level senior engineer, Ph.d., SINOMACH Academy of Science and Technology Co. Ltd, SINOMACH Research Center of Engineering Vibration Control Technology, China

Huang Wei is a renowned expert in vibration control and noise reduction. With a strong academic background and extensive research experience, he has made significant contributions to the field of vibration engineering. His work has been recognized through various awards and honors, and he continues to be an active researcher and presenter at conferences worldwide.

Profile

orcid

Education 🎓

Huang Wei received his education in China, graduating with a degree in a relevant field. Although specific details of his educational background are not provided, his academic achievements and research experience demonstrate a strong foundation in vibration engineering and related disciplines.

Experience 💼

Huang Wei has accumulated extensive experience in vibration control and noise reduction through various research projects and collaborations. He has worked on projects funded by government agencies and industry partners, demonstrating his ability to secure funding and work with diverse stakeholders. His experience also includes presenting research at conferences and publishing papers in academic journals.

Awards and Awards 🏆

Huang Wei has received recognition for his contributions to vibration engineering, although specific details of the awards and honors are not provided. His achievements demonstrate expertise and dedication to his field, earning him a reputation as a leading researcher.

Research Focus

Huang Wei’s research focuses on vibration control, noise reduction, and related topics. He explores innovative methods and technologies to mitigate vibration and noise, with applications in various industries, including construction, manufacturing, and defense. His work aims to improve the performance, safety, and efficiency of systems and structures.

Publications 📚

1. Vibration-sensitive equipment-decoupled vibration control-mass concrete foundation-soil spring 🌆
2. MRD parameter identification and its application in semiactive vibration control of power equipment and explosive vibration 💻
3. MRD parameter identification and its application in semiactive vibration control of power equipment and explosive vibration 💥
4. MRD parameter identification and its application in power equipment vibration control and explosion isolation 🚀
5. Equipment, Building Floor Dynamic Vibration Absorption Design and Optimization 🏢
6. Comfort Technical Standards—Wind-induced, human-induced, power equipment, traffic vibration and secondary radiated noise 🗣️
7. Engineering Vibration, Secondary Radiated Noise Related Comfort Standards and Building Vibration Isolation 📊

Junhong Xu | structural control | Best Researcher Award

Posted on by ScienceFather

Assoc. Prof. Dr Junhong Xu | structural control | Best Researcher Award

 Assoc. Prof. Dr at Nanjing forestry university, China

Dr. Xu Junhong is an Associate Professor and Master Supervisor at the School of Civil Engineering, Nanjing Forestry University (2017–present). He holds a Ph.D. in Civil Engineering from Southeast University (2015) and has expertise in structural engineering, mechanical metamaterials, and vibration control. He has led numerous research projects and supervised graduate students. His academic contributions span energy dissipation technologies, additive manufacturing, and structural optimization.

Publication Profile

scopus

Education: 🎓

Ph.D. in Civil Engineering, Southeast University, 2015 M.S. in Geotechnical Engineering, Hohai University, 2010 B.A. in Civil Engineering, North China University of Water Resources and Electric Power, 2007

Experience: 🌟

Associate Professor, Nanjing Forestry University, School of Civil Engineering (2017–present) Lecturer, Hohai University (2010–2017) Extensive participation in research projects related to structural vibration control and nanocomposites

Awards and Honors: 🏅

National Natural Science Foundation of China Project Award (2025) Jiangsu Natural Science Foundation Award for Research on Viscoelastic Damping (2018–2021) Multiple recognitions for contributions to disaster prevention and engineering projects.

Research Focus: 🔬

Dr. Xu’s research interests include mechanical metamaterials, additive manufacturing, high-performance nanocomposites, and viscoelastic damping devices. His focus is on structural vibration control, particularly damping systems for steel, timber, and concrete structures. He also explores disaster prevention, mitigation, and high damping materials for energy dissipation. His work has applications in both building structures and civil engineering technologies.

Publications 📖

Dynamic performance testing of CB-990 reinforced fluororubber joint dampers (CFJD) — This study provides simulation analysis of these innovative materials for improving structural damping under dynamic loads.

Pore pressure study of calcareous sand — Examines the effects of complex loadings on calcareous sand, important for understanding soil behavior in seismic conditions.

Seismic performance of nanometakaolin-reinforced fluororubber sector dampers (NFSD) — Investigates the seismic resistance properties of these dampers, offering solutions for more resilient infrastructure.

Energy dissipation in 3D-PAM type Right-Angle Viscoelastic Dampers (RVD) — A key study on vibration control and energy dissipation, particularly for polyurethane damping materials.

Conclusion:

Based on the candidate’s impressive academic achievements, active involvement in innovative research, and contributions to improving structural safety and resilience, they are a strong contender for the Research for Best Researcher Award. Their work in the field of vibration control, damping systems, and disaster mitigation is not only timely but also impactful, addressing urgent needs in civil engineering and structural safety. If the candidate can further expand their influence through international publications and industry collaborations, their potential for making significant contributions to the field will only grow.

Morteza Akbari | Structural Control | Best Researcher Award

Posted on by ScienceFather
Mr. Gdańsk University of Technology, Poland

Morteza Akbari is a PhD student in Structural Engineering at Gdańsk University of Technology, Poland, specializing in structural control, earthquake engineering, and soil-structure interaction. He holds an MSc in Structural Engineering from Islamic Azad University, Iran, with a thesis on seismic control of tall buildings using semi-active friction tuned mass dampers. Morteza has published several journal and conference papers on advanced seismic control strategies, focusing on the reliability and optimization of structural control devices in buildings. His professional experience includes technical inspection roles in construction, and he has served as a reviewer for academic journals.

 

Professional Profiles:

scopus

🎓 Education

PhD Student: Structural Engineering, Gdańsk University of Technology, PolandThesis: Optimal design of structural control devices in buildings, including soil-structure interactionSupervisor: Prof. Robert JankowskiDuration: 2023-2027MSc. Structural Engineering: Islamic Azad University, Zahedan Branch, IranGPA: 15.82/20Thesis: Seismic Control of Tall Buildings Equipped with Semi-Active Friction Tuned Mass Damper Including Soil-Structure InteractionSupervisor: Dr. Sadegh EtedaliDuration: 2013-2016B.S. Civil Technology Engineering: Islamic Azad University, Birjand Branch, IranGPA: 16.24/20Duration: 2011-2013A.D. in Building General Works: Ibn Hossam Technical and Vocational University, Birjand, IranGPA: 14.39/20Duration: 2008-2010

🏅 Honor & Award

2016: Graded as an excellent thesis with a GPA of 4/4 (MSc) (18.5/20) Here’s a revised version of the content with headings and emojis to make it more engaging:

🎓 Education

PhD Student: Structural Engineering, Gdańsk University of Technology, PolandThesis: Optimal design of structural control devices in buildings, including soil-structure interactionSupervisor: Prof. Robert JankowskiDuration: 2023-2027MSc. Structural Engineering: Islamic Azad University, Zahedan Branch, IranGPA: 15.82/20Thesis: Seismic Control of Tall Buildings Equipped with Semi-Active Friction Tuned Mass Damper Including Soil-Structure InteractionSupervisor: Dr. Sadegh EtedaliDuration: 2013-2016B.S. Civil Technology Engineering: Islamic Azad University, Birjand Branch, IranGPA: 16.24/20Duration: 2011-2013A.D. in Building General Works: Ibn Hossam Technical and Vocational University, Birjand, IranGPA: 14.39/20Duration: 2008-2010

💼 Field of Interest

Structural ControlStructural ReliabilityEarthquake EngineeringSoil-Structure InteractionMachine Learning (ML)Finite Element Method

🛠️ Professional Skills

Engineering Software and Programming Languages:

MATLAB & SimulinkSeismoSignalAUTO CAD

Other Skills:

Microsoft Office

🏅 Honor & Award

2016: Graded as an excellent thesis with a GPA of 4/4 (MSc) (18.5/20)

🌐 Experience

Technical Inspector: Ready-mixed concrete company and construction company, Birjand and Mashhad, Iran (Full-time, 2017-2022)Surveyor: Housing foundation office and document registration office, Birjand, Iran (Part-time, 2017-2021)

✍️ Refereeing Experience

Reviewer: Structures Journal, Elsevier (2023-2024)Reviewer: Results in Engineering, Elsevier (2023-2024)

Strengths for the Award:

  1. Strong Academic Background:
    • Morteza Akbari is currently pursuing a PhD in Structural Engineering at Gdańsk University of Technology, with a focus on the optimal design of structural control devices in buildings, including soil-structure interaction. His academic journey also includes an MSc in Structural Engineering and a BSc in Civil Technology Engineering, demonstrating a solid foundation in the field.
  2. Specialization in Seismic Control and Soil-Structure Interaction:
    • His research work is deeply rooted in seismic control strategies, which is a critical area in structural engineering, particularly for earthquake-prone regions. His focus on soil-structure interaction further emphasizes his understanding of complex dynamics in structural design.
  3. Notable Publications:
    • Akbari has several publications in reputable journals, including Geomechanics and Engineering, Soil Dynamics and Earthquake Engineering, and the Journal of Earthquake and Tsunami. His research covers important topics such as friction-tuned mass dampers, failure probability in tall buildings, and advanced seismic control strategies.
  4. Collaborations with Renowned Researchers:
    • His work with respected supervisors like Prof. Robert Jankowski and Dr. Sadegh Etedali adds credibility to his research. Collaborating with leading experts in the field strengthens his profile as a researcher.
  5. Recognition and Awards:
    • Grading of his MSc thesis as excellent and his experience as a reviewer for journals like Structures and Results in Engineering demonstrate his academic rigor and recognition within the research community.
  6. Relevant Skill Set:
    • Proficiency in engineering software like MATLAB, Simulink, and SeismoSignal, as well as experience with programming languages, makes him technically adept in his research domain.

Areas for Improvement:

  1. Broader Impact of Research:
    • While Akbari’s research is specialized and impactful within structural control and seismic mitigation, expanding the scope to include more interdisciplinary applications or real-world case studies could enhance the broader relevance and applicability of his work.
  2. International Exposure and Collaborations:
    • Increasing international collaborations and exposure through conferences, joint research projects, or partnerships with global research institutions could further elevate his profile.
  3. Publication in High-Impact Journals:
    • While his current publications are impressive, targeting more high-impact journals in civil engineering or structural dynamics could increase the visibility and citation of his work.
  4. Diversification of Research Topics:
    • Exploring additional areas within structural engineering or integrating emerging technologies like AI and machine learning into his research could provide new insights and innovations.

 

 

✍️Publications Top Note :

. Advanced Seismic Control Strategies for Smart Base Isolation Buildings Utilizing Active Tendon and MR Dampers

Authors: Akbari, M., Zand, J.P., Falborski, T., Jankowski, R.

Journal: Engineering Structures

Publication Year: 2024

Volume: 318

Article ID: 118756

2. A New Seismic Control Framework of Optimal PIλDµ Controller Series with Fuzzy PD Controller Including Soil-Structure Interaction

Authors: Etedali, S., Zamani, A.-A., Akbari, M., Seifi, M.

Journal: Journal of the Franklin Institute

Publication Year: 2023

Volume: 360

Issue: 14

Pages: 10536–10563

Citations: 4

3. Friction Tuned Mass Dampers in Seismic-Excited High-Rise Buildings with SSI Effects: A Reliability Assessment

Authors: Etedali, S., Akbari, M., Seifi, M.

Journal: Journal of Earthquake and Tsunami

Publication Year: 2023

Volume: 17

Issue: 2

Article ID: 2250022

Citations: 7

4. Failure Probability of Tall Buildings with TMD in the Presence of Structural, Seismic, and Soil Uncertainties

Authors: Etedali, S., Seifi, M., Akbari, M.

Journal: Structural Engineering and Mechanics

Publication Year: 2023

Volume: 85

Issue: 3

Pages: 381–391

Citations: 2

5. MOCS-Based Optimum Design of TMD and FTMD for Tall Buildings Under Near-Field Earthquakes Including SSI Effects

Authors: Etedali, S., Akbari, M., Seifi, M.

Journal: Soil Dynamics and Earthquake Engineering

Publication Year: 2019

Volume: 119

Pages: 36–50

Citations: 52

6. A Numerical Study on Optimal FTMD Parameters Considering Soil-Structure Interaction Effects

Authors: Etedali, S., Seifi, M., Akbari, M.

Journal: Geomechanics and Engineering

Publication Year: 2018

Volume: 16

Issue: 5

Pages: 527–538

Citations: 12

Conclusion:

Morteza Akbari’s academic achievements, specialized research in seismic control and soil-structure interaction, and his solid publication record make him a strong contender for the Best Researcher Award. His work addresses critical challenges in structural engineering, particularly in enhancing the safety and resilience of buildings against seismic activities. By expanding his research’s broader impact and increasing his international collaborations, Akbari can further solidify his standing as a leading researcher in his field. His current trajectory suggests a promising future, with the potential to make significant contributions to civil engineering and structural dynamics.