Dr.Luo Liang , Harbin Institute of Technology , China.
Dr.Luo LiangΒ is an Assistant Researcher specializing in intelligent construction and bridge engineering. he is a member of the Chinese Communist Party. He is currently pursuing a Ph.D. in Civil Engineering at Harbin Institute of Technology (HIT), focusing on AI-driven sustainable bridge maintenance and intelligent construction. Luo has published over ten high-impact SCI papers and has contributed to key national research projects. His expertise includes AI-driven decision-making for structural health monitoring and high-performance building connections. Luo is skilled in MATLAB, Python, CAD, and simulation software like Abaqus and ANSYS. 
Publication Profile
Education & ExperienceΒ 
- Ph.D. in Civil EngineeringΒ (2021.09β2025.01) β Harbin Institute of Technology (C9)Β
- Research: Sustainable bridge assessment, AI-driven maintenance
- Advisors: Prof. LΓΌ Dagang, Prof. Jia Mingming
- GPA: 3.56/4
- M.Sc. in Civil & Transportation EngineeringΒ (2018.09β2021.06) β South China University of Technology (985)Β
- Research: High-performance building connections
- Advisor: Prof. Wang Zhan
- GPA: 3.54/4
- B.Sc. in Civil EngineeringΒ (2014.09β2018.06) β East China Jiaotong UniversityΒ
- GPA: 3.86/4 (Top 5%)
- Courses: Concrete & Steel Structure Design, Bridge Engineering
- Research Projects:
- National Key R&D Program (2022-2025)Β
Β β AI-based dynamic maintenance for bridges
- National Natural Science Foundation Key Project (2017-2021)Β Β β High-performance structural connections
- Industry Experience:
- Research Assistant (2021-Present)Β
Β β Assists in national research & academic awards
- China Resources Land Guangzhou (2019-2021)Β
Β β Participated in project planning & design
Suitability Summary
Dr. Liang Luo’s research inΒ Intelligent Construction and Bridge EngineeringΒ exemplifies cutting-edge advancements in sustainable infrastructure and structural performance analysis. With overΒ 10 high-impact publicationsΒ in renowned journals such asΒ Engineering Structures, Construction and Building Materials,Β and theΒ Journal of Cleaner Production, his work has significantly contributed to the evolution of civil engineering methodologies. His award-winning study,Β “Experimental Study and Theoretical Prediction of Axial Compression Behavior in PMC-Reinforced CFST Columns with Void Defects”, recognized with theΒ Best Research Award, underscores his expertise in enhancing structural resilience and efficiency. His contributions align perfectly with the pursuit of innovative, eco-friendly construction solutions that redefine the future of intelligent engineering.
Professional DevelopmentΒ 
Dr.Luo Liang is dedicated to advancing intelligent construction through AI and digital modeling. His Ph.D. research focuses on integrating AI-driven maintenance strategies for bridge structures, leveraging big data analytics, IoT sensing, and structural health monitoring. Luoβs expertise extends to high-performance structural connections, enhancing infrastructure resilience. He has hands-on experience with simulation tools like Abaqus, ANSYS, and Midas Civil, as well as programming languages such as Python and MATLAB. Additionally, he actively contributes to national research projects, optimizing AI-driven decision-making in civil engineering. His work bridges the gap between traditional structural engineering and emerging intelligent technologies.
Research FocusΒ 
Dr.Luo LiangΒ specializes in Intelligent Construction & Bridge Engineering, integrating AI-driven decision-making into infrastructure maintenance. His research revolves around:
- Sustainable Bridge AssessmentΒ
Β β AI-powered maintenance strategies
- Smart Infrastructure MonitoringΒ Β β IoT-based predictive analytics
- Structural Health DiagnosisΒ Β β Digital modeling & 3D reconstruction
- High-Performance Structural ConnectionsΒ
Β β Experimental studies & simulations
- Lifecycle Structural AnalysisΒ
Β β Failure probability & serviceability evaluations
His work aims to improve infrastructure safety, sustainability, and efficiency through advanced computational models and intelligent monitoring technologies.Β 
Awards & HonorsΒ 
- National Ph.D. Scholarship & Inspirational ScholarshipΒ
- Outstanding Graduate & Excellent Party MemberΒ
- Top 3 in University Bridge Design CompetitionΒ
- Outstanding Student Leader & Three-Good Student AwardΒ
- Reviewer for SCI-indexed JournalsΒ
Β β Conducts annual peer reviews for top research publications
Publication Top Notes
- “Exploration of the behavior and evolution features of beam-column joints with T-stub using the structural strain energy method”Β (2024)
- “Experimental study and analytical modeling of tensile performance of ultra-high-performance concrete incorporating modified recycled aggregates”Β (2024)
- “Experimental study and theoretical prediction of axial compression behavior in PMC-reinforced CFST columns with void defects”Β (2024)
- “The treated recycled aggregates effects on workability, mechanical properties and microstructure of ultra-high performance concrete co-reinforced with nano-silica and steel fibers”Β (2024)
- “Seismic behavior of reduced beam section joints considering concrete floor effect”Β (2024)
- “Evolution characteristics and performance evaluation of extended end-plate joints with single and double side connections under cyclic loading”Β (2024)