Instead of relying on conventional Lagrangian particle tracking we present a simulation approach based on a fictitious domain method,allowing the coupled computation of fluid and particle motion as we
Kinematic wave equation with uncertain parameters and initial/boundary conditions is ubiquitous in a variety of fields from traffic flow to environmental runoff.
In this talk,we show an algorithm and implementation of an eigenvalue solver which efficiently solve large-scale generalized eigenvalue problems derived from vibration analysis.
We completely characterize deterministic and anonymous strategyproof and group strategy-proof mechanisms on single-dipped public policy domain,complementing the well-known results on single-peaked pol
We present the coordinated scheduling problems of production and transportation in the iron and steel industry in order to achieve equipment utilization and reduce energy consumption.
In plasma simulation,we often only know the total electric quantity on the surface of the object,not the charge density distribution on the surface which appears as the non-homogeneous flux jump condi
A concurrent atomistic-continuum methodology will be presented.The statistical mechanics foundation and the coarse graining strategy of the method will be introduced.