No. | Title | Presenter | Affiliation |
---|---|---|---|
I-1 | A stable and efficient meshfree method for simulating large-deformation landslides | Zirui Mao | University of Cincinnati, US |
I-2 | Investigations of earthquake-induced failure of jointed rock slopes using the hybrid finite-discrete element method | Qi Zhao | The Hong Kong Polytechnic University, Hong Kong, China |
I-3 | Seismic reliability analysis of slopes based on data-driven method | Rui Pang | Dalian University of Technology, China |
I-4 | Earthquake-induced permanent displacement of slope with multiple sliding planes | Jian Song | Hohai University, China |
I-5 | Probabilistic approach to the performance-based seismic assessment of retaining structures | Hongqiang Hu | Zhejiang University, China |
I-6 | Coriolis effect in centrifuge modeling of the post-failure flow behavior of slope | Bei Zhang | Chang’an University, China |
I-7 | Unsteady motion process of landslide debris flows characterized by micro-seismic signals | Wuwei Mao | Tongji University, China |
I-8 | Multi-objective optimization design of pile-anchor structures for slopes considering the spatial variability of soil properties | Zhengying He | Tongji University, China |
I-9 | Research on large displacement shear characteristics of sand particles affected by high temperature | Suran Wang | University of Shanghai for Science and Technology, China |
I-10 | Steady granular rheology subject to coexistence of multiple regimes | Chongqiang Zhu | University of Dundee, UK |
I-11 | Modelling large deformation slope failure with Smoothed Particle Hydrodynamics (SPH) | Ruofeng Feng | The University of Manchester, UK |
I-12 | Thermal property improvement of slope stabilized by cement mixing technology | Benyi Cao | University of Surrey, UK |