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Inspired by the understanding of the fundamental of mechanics in cell physiology, current research in the PI’s laboratory also seeks to use engineering approaches to control behavior and functionality of cells and tissues. We have developed and applied to numerous cell types novel techniques for measuring mechanical properties and cellular forces, both inside and outside of the cell, at single cell level and multiple cellular level, on 2D and in 3D, such as Force Spectrum Microscopy, high-frequency microrheology, and Nonlinear Stress Inference Microscopy, and have used those methods to discover activity driven random transport in cells, the key role of vimentin intermediate filament in cytoplasmic mechanics and transport, as well as the nature of cell volume regulation and its impact on cell mechanics and stem cell differentiation. These basic mechanical processes underlie a range of higher level phenomena in health and disease including many aspects of cancer, cardiovascular disease, malaria, and morphogenesis. Stochastic Environmental Research and Risk Assessment, 27(8), 1899–1908.My laboratory works on the interface of mechanics, physics, and cell biology, seeks to understand how physical properties and biological function affect each other in cellular systems, and how physical and material laws govern the behavior of living cells and their abilities to deform, move, remodel, and function. (2013) Assessment of social vulnerability to natural hazards in the Yangtze River Delta, China. Advances in Water Resources, 61(0), 42–50. (2013) Spatial downscaling of TRMM precipitation data based on the orographical effect and meteorological conditions in a mountainous area. Stochastic Environmental Research and Risk Assessment, pp. (2015) Quantitative multi-hazard risk assessment with vulnerability surface and hazard joint return period. (2017) An efficient and stable hydrodynamicmodel with novel source term discretization schemes for overland flow and flood simulations.
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(2019) Quantitative Multi-Hazard Risk Assessment of Crop Loss in the Yangtze River Delta Region of China.
#MING SOFTWARE#
Although (currently) offering only a 32-bit compiler suite, all of MinGWs software will execute on the.
#MING WINDOWS#
(2020) Real-time flood forecasting based on a high‐performance 2D hydrodynamic model and numerical weather predictions. MinGW is a native Windows port of the GNU Compiler Collection (GCC), with freely distributable import libraries and header files for building native Windows applications includes extensions to the MSVC runtime to support C99 functionality.
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