BioScape is based on the Stochastic Pi-Calculus, and it is motivated by the need for individual-based, continuous motion, and continuous space simulation in modeling complex bacteria-materials interactions. Our driving example is a bio-triggered drug delivery system for infection-resistant medical implants.
We design BioScape, a concurrent language for the stochastic simulation of biological and bio-materials processes in a reactive environment in 3D space.
We design BioScape, a concurrent language for the stochastic simulation of biological and bio-materials processes in a reactive environment in 3D space.
We design BioScape, a concurrent language for the stochastic simulation of biological and bio-materials processes in a reactive environment in 3D space.
A GPU based simulation framework in a reactive environment in 3D space, along with the modeling language, BioScape, in order to describe various biological ...
We design BioScape, a concurrent language for the stochastic simulation of biological and bio-materials processes in a reactive environment in 3D space.
BioScape: A Modeling and Simulation Language for Bacteria-Materials Interactions.
BioScape: A modeling and simulation language for bacteria ...
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We design BioScape, a concurrent language for the stochastic simulation of biological and bio-materials processes in a reactive environment in 3D space.
Mar 11, 2013 · We design BioScape, a concurrent language for the stochastic simulation of biological and bio-materials processes in a reactive environment ...
BioScape: A Modeling and Simulation Language for Bacteria-Materials Interactions. Published in. Electronic Notes in Theoretical Computer Science, March 2013.