Papers

1

Total Citations

3

H-Index

1

About

Jindi Lin is a researcher in geodetic engineering and structural health monitoring, with a focus on high-precision deformation measurement using robotic total stations. Their key contributions center on optimizing the spatial configuration of robotic total stations for three-dimensional deformation monitoring of multiple points, a critical challenge in infrastructure safety. In their 2019 work, "Optimization of Location of Robotic Total Station in 3D Deformation Monitoring of Multiple Points," Lin developed a systematic approach to determine the optimal instrument placement that minimizes measurement errors and maximizes coverage for multi-point monitoring networks. This research directly addresses practical limitations in long-term structural monitoring, where instrument geometry significantly affects data accuracy. While their citation count remains modest, the work represents a foundational step in improving the reliability of automated geodetic systems for applications such as bridge, dam, and tunnel deformation tracking. Lin’s research bridges the gap between theoretical geodesy and field implementation, offering engineers a quantitative framework for designing more effective monitoring setups. Their contributions are particularly relevant for researchers and practitioners seeking to enhance the precision and efficiency of non-contact deformation sensing in civil infrastructure.

Research Focus

Key Achievements

1
H-Index
1
Papers
3
Total Citations
3
Avg Citations/Paper
🏆 Most Cited Paper
Optimization of Location of Robotic Total Station in 3D Deformation Monitoring of Multiple Points
3 citations · 2019
📈 Most Prolific Year: 2019 (1 Papers)
🤝 Key Collaborators: 4
🏛 Institutions: China State Construction Engineering (China)

Top Papers

  1. 1

Key Collaborators

Contact & Links

Available for collaboration
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