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Publications

Publication

  • Xuanyi Lu, Sudao He, Shenghan Zhang. (2025). Deep learning for automated crack quantification with distributed fiber optic sensing: Addressing strain overlap and interface nonlinearity. Automation in Construction, 176, 106280
  • Qianqian Yu, Jie Wang, Xianglin Gu, Sudao He, Shenghan Zhang. (2025). An Attention-Based Detection Method of Fatigue Cracks on Steel. Structural control & health monitoring, 2025(1), 7487684.
  • Sudao He, Gang Zhao, Jun Che, Shenghan Zhang, Dhanada Mishra, Matthew Ming-Fai Yuen. (2025). Weakly-aligned cross-modal learning framework for subsurface defect segmentation on building façades using UAVs. Automation in Construction, 170, 105946.
  • Zetao Wang, Raluca Constantin, Shenghan Zhang. (2024). Modeling inelastic behavior of U-shaped walls using multi-layer shell element: assessment at both global and local levels. Bulletin of Earthquake Engineering, 1-27.
  • Yuzhu, Chen, Shenghan Zhang, and Lin Meng. (2024). Operational guidelines for a concentrated solar-driven high-temperature electrolysis reactor beyond thermoneutral voltage. Energy Conversion and Management 322 : 119166.
  • Richart, Nicolas, …, Shenghan Zhang, et al. (2024). Akantu: an HPC finite-element library for contact and dynamic fracture simulations. Journal of Open Source Software 9.94: 5253.
  • Sudao He, Shenghan Zhang, Dhanada MISHRA, and Matthew Ming-Fai YUEN. (2024). A graph learning approach for automatic subsurface defects segmentation in building façade using RGB and infrared images.Proceedings of the 11th European Workshop on Structural Health Monitoring (EWSHM 2024)
  • Jun Chen, Shenghan Zhang. (2024). Numerical Study on the Structural Behavior of Modular Buildings with Weak Inter-Module Connections. 18th World Conference on Earthquake Engineering (WCEE2024)
  • Xuanyi LU, Shenghan Zhang. (2024). Mixed-Mode Crack Quantification with Distributed Fiber Optical Sensing.Proceedings of the 11th European Workshop on Structural Health Monitoring (EWSHM 2024)
  • Xuanyi LU, Shenghan Zhang. (2024). Numerical investigation on the strain distribution of distributed fiber optic sensors caused by cracking with variable cable parameters. 18th World Conference on Earthquake Engineering (WCEE2024)
  • Shenghan Zhang, Han Liu, Sanjay Govindjee, and Matthew DeJong. (2022). Strain Transfer Mechanisms and Mechanical Properties of Optical Fiber Cables. Sensors, 22(24), 9966.
  • Shenghan Zhang, Han Liu, Esam Darwish, Khalid Mosalam, and Matthew DeJong. (2022). Distributed fiber-optic strain sensing of an innovative reinforced concrete beam–column connection. Sensors, 22(10), 3957.
  • Peter Hubbard, James Xu, Shenghan Zhang, Matthew Dejong, Linqing Luo, Kenichi Soga, Carlo Papa et al. (2021). Dynamic structural health monitoring of a model wind turbine tower using distributed acoustic sensing (DAS). Journal of Civil Structural Health Monitoring, 11(3), 833-849.
  • Tsubasa Sasaki, Shenghan Zhang, Kenichi Soga, Linqing Luo, Barry Freifeld, Yoki Kitayama, Kyojiro Kawaguchi, and Hitoshi Sugiyama. (2021). Distributed fiber optic strain sensing of bending deformation of a well mockup in the laboratory. Journal of Natural Gas Science and Engineering, 96, 104309.
  • Shenghan Zhang, Han Liu, Jeffery Cheng, and Matthew DeJong. (2021). A mechanical model to interpret distributed fiber optic strain measurement at displacement discontinuities. Structural Health Monitoring, 20(5), 2584-2603.
  • Han Liu, Shenghan Zhang, Abdoul Coulibaly, Jeffrey Cheng, and Matthew DeJong. (2021). Monitoring reinforced concrete cracking behavior under uniaxial tension using distributed fiber-optic sensing technology. Journal of Structural Engineering, 147(12), 04021212.
  • Shenghan Zhang, Han Liu, Abdoul Coulibaly, and Matthew DeJong. (2021). Fiber optic sensing of concrete cracking and rebar deformation using several types of cable. Structural Control and Health Monitoring, 28(2), e2664.
  • Michele Godio, Francesco Vanin, Shenghan Zhang, and Katrin Beyer. (2019). Quasi-static shear-compression tests on stone masonry walls with plaster: Influence of load history and axial load ratio. Engineering Structures, 192, 264-278.
  • Shenghan Zhang, and Katrin Beyer. (2019). Numerical investigation of the role of masonry typology on shear strength. Engineering Structures, 192, 86–102.
  • Shenghan Zhang, Martin Hofmann, and Katrin Beyer. (2018). A 2D typology generator for historical masonry elements. Construction and Building Materials, 184, 440–453.

Last Updated 23/06/2025