Difference between revisions of "Simulation"
Tagir Valeev (Talk | contribs) m (Link fixed - →ODE Simulation Engine) |
Ilya Kiselev (Talk | contribs) |
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*Stochastic Simulation Engine | *Stochastic Simulation Engine | ||
*Agent-based Simulation Engine | *Agent-based Simulation Engine | ||
+ | *Hemodynamics Simulation Engine | ||
== ODE Simulation Engine == | == ODE Simulation Engine == | ||
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*[[Maximum time-step]] | *[[Maximum time-step]] | ||
− | == Agent-based | + | == Agent-based Simulation Engine == |
Is applicable for [[modular modeling|modular models]] regardless modules implementation. Each module is simulated with its own simulation engine, scheduler provides their intercommunications. | Is applicable for [[modular modeling|modular models]] regardless modules implementation. Each module is simulated with its own simulation engine, scheduler provides their intercommunications. | ||
+ | |||
+ | == Hemodynamics Simulation Engine == | ||
+ | Serves for simulation of the blood flow across arterial tree. Provides mathematical model generation on the basis of visually represented arterial tree and its simulation. Mathematical model is a set of PDE (partial differential equations). |
Revision as of 21:28, 1 August 2013
Currently, BioUMl contains next simulation engines:
- ODE Simulation Engine
- Stochastic Simulation Engine
- Agent-based Simulation Engine
- Hemodynamics Simulation Engine
Contents |
ODE Simulation Engine
Generates ODE system with descrete events. Along with the initial model state it constitutes Initial Value Problem (IVP) which can be solved with appropriate methods implemented in BioUML:
It is also applicable for modular models created in BioUML and satisfying certain limitations on modules. In that case flattening algorithm is applied before simulation.
Stochastic Simulation Engine
Interpretes chemical reactions in the model as stochastic processes. Generated code implements interface for stochastic solvers:
Agent-based Simulation Engine
Is applicable for modular models regardless modules implementation. Each module is simulated with its own simulation engine, scheduler provides their intercommunications.
Hemodynamics Simulation Engine
Serves for simulation of the blood flow across arterial tree. Provides mathematical model generation on the basis of visually represented arterial tree and its simulation. Mathematical model is a set of PDE (partial differential equations).