In this work it is shown how the immersed boundary method of (Peskin2002) for modeling flexible structures immersed in a fluid can be extended to include thermal fluctuations. A stochastic numerical method is proposed which deals with stiffness in the system of equations by handling systematically the statistical contributions of the fastest dynamics of the fluid and immersed structures over long time steps. An important feature of the numerical method is that time steps can be taken in which the degrees of freedom of the fluid are completely underresolved, partially resolved, or fully resolved while retaining a good level of accuracy. Error estimates in each of these regimes are given for the method. A number of theoretical and numerical c...
We present analysis for the reduction of an inertial description of fluid-structure interactions sub...
AbstractPassive microrheology is an experimental technique for the characterization of complex polym...
Modeling vesicle dynamics involves a complicated moving boundary problem while the shapes of vesicle...
In modeling many biological systems, it is important to take into account the in-teraction of flexib...
We explore the theoretical foundations for the inclusion of thermal fluctuations in the immersed bou...
We give a brief introduction to the stochastic immersed boundary method which allows for simulation ...
We present a new computational method for simulating microscopic processes in physiology which accou...
In this paper a direct correspondence is made between the effective stochastic dynamics of elastic s...
A computational approach is introduced for the study of the rheological properties of complex fluids...
We present approaches for the study of fluid-structure interactions subject to thermal fluctuations....
We develop computational methods for the simulation of osmotic swelling phenomena relevant to micros...
In microscopic mechanical systems interactions between elastic structures are often mediated by the ...
We present analysis for the reduction of an inertial description of fluid-structure interactions sub...
We present a fluctuating boundary integral method (FBIM) for overdamped Brownian Dynamics (BD) of tw...
We develop stochastic mixed finite element methods for spatially adaptive simulations of fluid-struc...
We present analysis for the reduction of an inertial description of fluid-structure interactions sub...
AbstractPassive microrheology is an experimental technique for the characterization of complex polym...
Modeling vesicle dynamics involves a complicated moving boundary problem while the shapes of vesicle...
In modeling many biological systems, it is important to take into account the in-teraction of flexib...
We explore the theoretical foundations for the inclusion of thermal fluctuations in the immersed bou...
We give a brief introduction to the stochastic immersed boundary method which allows for simulation ...
We present a new computational method for simulating microscopic processes in physiology which accou...
In this paper a direct correspondence is made between the effective stochastic dynamics of elastic s...
A computational approach is introduced for the study of the rheological properties of complex fluids...
We present approaches for the study of fluid-structure interactions subject to thermal fluctuations....
We develop computational methods for the simulation of osmotic swelling phenomena relevant to micros...
In microscopic mechanical systems interactions between elastic structures are often mediated by the ...
We present analysis for the reduction of an inertial description of fluid-structure interactions sub...
We present a fluctuating boundary integral method (FBIM) for overdamped Brownian Dynamics (BD) of tw...
We develop stochastic mixed finite element methods for spatially adaptive simulations of fluid-struc...
We present analysis for the reduction of an inertial description of fluid-structure interactions sub...
AbstractPassive microrheology is an experimental technique for the characterization of complex polym...
Modeling vesicle dynamics involves a complicated moving boundary problem while the shapes of vesicle...