Junhong Xu | structural control | Best Researcher Award

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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.

Yasmeen Obaidat | Structural eng | Best Researcher Award

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Prof. Yasmeen Obaidat | Structural eng | Best Researcher Award

Professor at ordan university of science and technology, Jordan

Associate Professor of Civil Engineering at Jordan University of Science & Technology (JUST). 📚 Earned a Ph.D. from Lund University, Sweden (2011), and MSc/BSc from JUST. 🏗️ Expert in structural retrofitting, nonlinear finite element modeling, and AI applications in civil engineering. 🌍 Active researcher with 40+ publications and contributor to academic growth at JUST and Yarmouk University. 🎓 Dedicated mentor, supervisor, and conference participant.

 

Publication Profile

scholar

Education🎓

Ph.D.: Civil Engineering, Structural Mechanics, Lund University, Sweden (2011). Dissertation: Structural retrofitting of concrete beams using FRP Licentiate: Structural Mechanics, Lund University, Sweden (2009). Thesis: Retrofitting reinforced concrete beams with CFRP. M.Sc.: Structural Engineering, JUST, Jordan (2007). Thesis: Retrofitting RC beams with composite laminates. B.Sc.: Structural Engineering, JUST, Jordan (2004).

Experience🧑‍🏫

Professor, Civil Engineering, JUST (2023-present). Associate Professor, Civil Engineering, JUST (2012-2019). Head of Civil Engineering Department, Yarmouk University (2012-2015). Assistant Professor, Civil Engineering, JUST and Yarmouk University. Established civil engineering labs and supervised 50+ undergrad projects.

Awards and Honors🏆

Member of Undergraduate Projects Committee, Jordanian Engineers Association (2019-present).  Instrumental in academic and research partnerships nationally and internationally.  Established civil engineering labs at Yarmouk University.  Significant contributions to faculty development at JUST and Yarmouk University.

Research Focus🔍 

Structural retrofitting and strengthening with FRP materials.  Nonlinear finite element modeling in civil engineering applications. AI integration in structural engineering solutions  Climatic design for sustainable civil engineering practices.  Published 40+ peer-reviewed articles and supervised MSc/PhD students.

Publication  Top Notes

“The effect of CFRP and CFRP/concrete interface models when modelling retrofitted RC beams with FEM”
📄 Composite Structures (2010), 92(6), pp. 1391–1398.
👀 Cited 369 times, this study investigates finite element modeling (FEM) techniques for retrofitted RC beams using CFRP.

“Retrofitting of reinforced concrete beams using composite laminates”
📄 Construction and Building Materials (2011), 25(2), pp. 591–597.
🔗 Cited 202 times, this article explores composite laminate retrofitting for RC beams, focusing on structural performance.

“Retrofitting of partially damaged reinforced concrete beam-column joints using various plate-configurations of CFRP under cyclic loading”
📄 Construction and Building Materials (2019), 198, pp. 313–322.
🌐 Cited 72 times, it examines innovative CFRP configurations for seismic retrofitting of RC joints.

“Evaluation of parameters of bond action between FRP and concrete”
📄 Journal of Composites for Construction (2013), 17(5), pp. 626–635.
📊 Cited 62 times, focuses on critical bond parameters affecting FRP-concrete interaction.

“Effect of olive waste (Husk) on behavior of cement paste”
📄 Case Studies in Construction Materials (2016), 5, pp. 19–25.
🌱 Cited 58 times, investigates the sustainable use of olive waste in cement paste formulations.

“Structural retrofitting of concrete beams using FRP-debonding issues”
📄 Doctoral Dissertation (2011).
📗 Cited 54 times, addresses challenges of FRP debonding in structural retrofitting applications.

“A new technique for repairing reinforced concrete columns”
📄 Journal of Building Engineering (2020), 30, 101256.
🏗️ Cited 44 times, proposes an innovative column repair method using CFRP.

“Non-linear finite-element investigation of the parameters affecting externally-bonded FRP flexural-strengthened RC beams”
📄 Results in Engineering (2020), 8, 100168.
🖥️ Cited 42 times, presents a FEM analysis for flexural strengthening of RC beams.

“New anchorage technique for NSM-CFRP flexural strengthened RC beam using steel clamped end plate”
📄 Construction and Building Materials (2020), 263, 120246.
🚧 Cited 40 times, this work details advanced anchorage solutions for NSM-CFRP systems.

“Performance of RC beam strengthened with NSM-CFRP strip under pure torsion: Experimental and numerical study”
📄 International Journal of Civil Engineering (2020), 18, pp. 585–593.
🔄 Cited 38 times, investigates the torsional strengthening of RC beams using NSM-CFRP strips.

“Shear strengthening of RC beams using near-surface mounted carbon fibre-reinforced polymers”
📄 Australian Journal of Structural Engineering (2019), 20(1), pp. 54–62.
✂️ Cited 38 times, explores NSM-CFRP applications for shear strength enhancement.

“Compressive strength prediction of lightweight short columns at elevated temperature using gene expression programming and artificial neural network”
📄 Journal of Civil Engineering and Management (2020), 26(2), pp. 189–199.
🔥 Cited 27 times, uses AI to predict structural performance under heat stress.

“Case study on production of self-compacting concrete using white cement by-pass dust”
📄 Case Studies in Construction Materials (2018), 9, e00190.
🔍 Cited 27 times, highlights sustainable concrete production methods.

“Effect of aggregate size on the bond behavior between carbon fiber–reinforced polymer sheets and concrete”
📄 Journal of Materials in Civil Engineering (2019), 31(12), 04019295.
📐 Cited 24 times, examines how aggregate size impacts CFRP-concrete bond behavior.

“Effect of elevated temperature on the bond behavior between NSM-CFRP strips and recycled aggregate concrete”
📄 Construction and Building Materials (2020), 251, 118970.
🌡️ Cited 22 times, investigates bond integrity under heat exposure.

“Behavior of NSM CFRP reinforced concrete columns: Experimental and analytical work”
📄 Case Studies in Construction Materials (2021), 15, e00589.
🏗️ Cited 21 times, combines experimental and analytical approaches to column strengthening.

“A nonlinear finite element model for shear deficient heat-damaged concrete beams repaired using NSM CFRP strips”
📄 Construction and Building Materials (2018), 170, pp. 314–325.
🔨 Cited 21 times, provides a FEM-based solution for repairing heat-damaged beams.

“Repair of heat-damaged SCC cantilever beams using SNSM CFRP strips”
📄 Structures (2020), 24, pp. 151–162.
🔧 Cited 20 times, focuses on repairing SCC beams using advanced CFRP techniques.

“Innovative strengthening schemes of concrete cantilever beams using CFRP sheets: End anchorage effect”
📄 Construction and Building Materials (2018), 190, pp. 1215–1225.
💡 Cited 17 times, analyzes the end anchorage impact in CFRP-strengthened beams.

Conclusion

The candidate demonstrates exceptional qualifications and achievements in structural mechanics, retrofitting techniques, and civil engineering education. Their blend of academic excellence, research productivity, leadership roles, and mentorship makes them a strong contender for the Best Researcher Award. By focusing on enhancing global impact and diversifying research interests, they can further solidify their stature as a leading researcher.

Muhammad Sami Ullah | Civil Engineering | Best Researcher Award

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Mr. Muhammad Sami Ullah | Civil Engineering | Best Researcher Award

Student at Southeast University,  China

An accomplished Structural Engineer with 3.5+ years of experience across diverse projects in the U.S., U.K., and China. Specializing in advanced structural design, analysis, and optimization, they have honed their technical skills using software like SAP2000, STAAD Pro, and Tekla Tedds. Their international exposure includes remote work and internships with industry leaders in engineering. Known for attention to detail, problem-solving, and meeting tight deadlines, they excel at delivering safe, efficient, and cost-effective structural solutions. A dynamic engineer committed to driving excellence in both residential and commercial projects.

Publication Profile

orcid

Education  🎓

Master of Science in Civil Engineering (2022–2025), Southeast University, China (83%).  Bachelor of Science in Civil Engineering (2017–2021), The University of Faisalabad, Pakistan (CGPA 3.59/4.00) The Master’s thesis focused on “Load-path and strut-and-tie modeling of multiple-pile caps in bridges,” with notable research contributions published in the Structural Concrete Journal. The Bachelor’s thesis investigated the “Effect of Different Types of Superplasticizer on Properties of Fresh and Hardened Concrete.” Their academic journey blends practical projects with innovative research, culminating in an advanced understanding of structural engineering’s principles and applications.

Experience  🔧

Structural Engineer at Foresight (USA): Designed complex structural systems and analyzed steel elements using SAP2000.  Structural Engineer at Revite (UK): Specialized in advanced steel structure design and trained staff in SAP2000, STAAD Pro, and Tekla Tedds.  AGC (UK): Focused on designing timber structures, including lofts and skylights, ensuring compliance with BS and EC standards.  Internships in China: Contributed to the design of stadium structures, gaining experience with tools like ABAQUS and ANSYS  Previous roles include projects in Pakistan, optimizing material quantities and monitoring on-site construction.

Awards and Honors 🏆

Published research in Structural Concrete Journal and presented a conference paper at GBCESC 2024, China. Achieved an 83% score in the MSc program at Southeast University, China.  Winner of the Eassy Contest for International Students in Jiangsu Province. Recognized in the AutoCAD Competition at UET Faisalabad.  Represented The University of Faisalabad in Badminton tournaments. Participated in research on international students’ perceptions of the Belt and Road Initiative.

Research Focus  🔬

Their research primarily focuses on structural load-path analysis and the development of advanced strut-and-tie models for bridges. They have published work analyzing transverse tensile stresses in multiple-pile caps in Structural Concrete Journal. Ongoing projects include enhancing the design of multi-pile caps for better structural efficiency and sustainability. Additionally, they have contributed to research on the effects of superplasticizers in concrete, optimizing both fresh and hardened concrete properties for construction projects. Their research integrates advanced modeling techniques with practical applications, ensuring high-performance structural designs.

Publication  Top Notes

  • Protection-Enhanced Watermarking Scheme Combined With Non-Linear Systems
    Journal: IEEE Access, 2023
    Contributors: Hira Nazir, Muhammad Sami Ullah, Syed Salman Qadri, Humaira Arshad, Mujtaba Husnain, Abdul Razzaq, Syed Ali Nawaz
    This article introduces a watermarking scheme designed to enhance protection through non-linear systems.
  • A Color Image Encryption Scheme Combining Hyperchaos and Genetic Codes
    Journal: IEEE Access, 2022
    Contributors: Hira Nazir, Imran Sarwar Bajwa, Saima Abdullah, Rafaqut Kazmi, Muhammad Samiullah
    It explores a color image encryption model that combines hyperchaos and genetic codes for enhanced security.
  • Chaos-Based Cryptographic Mechanism for Smart Healthcare IoT Systems
    Journal: Computers, Materials & Continua, 2022
    Contributors: Muhammad Sami Ullah
    This paper presents a chaos-based cryptographic system for secure communication in smart healthcare IoT networks.
  • Hyperchaos and MD5 Based Efficient Color Image Cipher
    Journal: Computers, Materials & Continua, 2022
    Contributors: Muhammad Sami Ullah
    This article focuses on a cipher for color image encryption using hyperchaos and the MD5 algorithm for increased security.
  • Robust Secure Color Image Watermarking Using 4D Hyperchaotic System, DWT, HbD, and SVD Based on Improved FOA Algorithm
    Journal: Security and Communication Networks, 2021
    Contributors: Hira Nazir, Imran Sarwar Bajwa, Muhammad Samiullah, Waheed Anwar, Muhammad Moosa, Manjit Kaur
    It offers a robust color image watermarking technique utilizing a 4D hyperchaotic system.
  • An Image Encryption Scheme Based on DNA Computing and Multiple Chaotic Systems
    Journal: IEEE Access, 2020
    Contributors: Muhammad Samiullah, Waqar Aslam, Hira Nazir, M. Ikramullah Lali, Basit Shahzad, Muhammad Rafiq Mufti, Humaira Afzal

Conclusion:

The candidate is highly suitable for the Best Researcher Award due to their robust combination of technical expertise, strong academic performance, and contributions to structural design research. With a proven ability to lead and innovate in the field of civil engineering, particularly in the areas of steel and timber structure design, the candidate’s global experience and commitment to research excellence make them an ideal contender for such an award. Focusing on industry impact and expanding research into emerging civil engineering technologies would further enhance their candidacy.

Morteza Akbari | Structural Control | Best Researcher Award

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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.