(Including but not limited to the following topics)
Track 1: Underground Engineering Technology
Numerical simulation of tunnels and excavation
Optimization of foundation reinforcement and support
Classification and mapping of rock masses
Analysis of structure-foundation interaction
Performance monitoring and reverse analysis
Large-scale engineering projects under complex geological conditions
Design and construction technologies for tunnels, subways, and underground utility tunnels
Support for deep foundations, foundation treatment, and underground space development
Intelligent tunneling and attitude control for TBM/盾构 tunnels
Durability， waterproofing， and disaster prevention of underground structures
Application of digital twins and BIM in the entire life cycle of underground engineering
Intelligent monitoring， sensor networks， and early warning systems for underground engineering
Urban underground space planning and three-dimensional development
Robot inspection and automated construction technologies for underground engineering
Track 2： Earthquake Monitoring
Earthquake engineering
Interaction between foundation and structure
Observation of strong vibrations， analysis of seismic motion characteristics and site effects
Evaluation of seismic safety of engineering sites and research on seismic motion parameters
Dynamic characteristics of soil， liquefaction discrimination and anti-liquefaction technologies
Seismic design methods for underground structures (tunnels， subways， pipelines)
Dynamic interaction between soil and structure and seismic resilience assessment
Structural damage identification and earthquake warning based on machine learning
Earthquake risk assessment， resilient cities， and disaster prevention and mitigation planning
Track 3： Geotechnical Engineering
Soil characteristics， improvement， and restoration
Landslides and slope stability
Numerical modeling and data analysis in geotechnical engineering
Geological disasters
Hydrogeology
Underground structures
Material constitutive models and multi-scale mechanical behavior of geotechnical materials
Engineering characteristics of complex geological conditions (soft soil， loess, karst)
Slope stability, monitoring and prevention technologies for landslides
Control of excavation disturbance and layer deformation in underground engineering
Prevention of underground engineering dynamic disasters (rockburst， sudden water inrush， etc.)
Blasting vibration effects and safety control of adjacent buildings (structures)
Innovative technologies for foundation treatment， pile foundation engineering， and foundation pit engineering
Environmental geotechnical engineering and green sustainable technologies ......