Resilient and Sustainable Geotechnical Solutions: Development of eco-friendly and bio-inspired technologies for soil stabilization, foundation engineering, and infrastructure resilience.

Advanced Soil-Structure Interaction Studies: Understanding the behavior of geomaterials under complex loading and environmental conditions for improved foundation and retaining structures. Tribology and Interface Mechanics in Geosystems: Advanced experimental and numerical studies on soil-material interactions for applications in geotechnical engineering, tunneling, and offshore foundations.

AI and Data-Driven Geotechnical Engineering: Leveraging machine learning, image processing, and sensor-based monitoring for predictive analysis of geotechnical failures and site characterization.

Innovative Monitoring and Early Warning Systems: Acoustic-based and UAV-enabled technologies for real-time slope stability assessment, landslide susceptibility mapping, and disaster mitigation.

Sustainable Ground Improvement Techniques: Exploring bio-cementation, geosynthetics, and smart materials for soil improvement and climate-adaptive infrastructure.

Geotechnical Risk Assessment and Resilience Planning: Investigating post-disaster reconnaissance, forensic geotechnics, and infrastructure failure analysis to enhance disaster preparedness and response.