Hybrid Integrator

Versión 1.0.0.0 (142 KB) por Ross Hatton

Hybrid system integration based on the "event" functions in Matlab's ODE solvers.

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Actualizado 8 nov 2010

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In many cases, simulating a dynamical system is best achieved by defining several modes in which it can exist and modeling each mode independently. This approach is known as "hybrid modeling". There is significant academic literature on the subject, but at its most basic level, a hybrid model needs three pieces of information:

- Dynamic models for each domain.
- Rules for when to transition out of each domain.
- A transition graph dictating which domain the system should enter on leaving the previous domain.

Matlab supplies some basic low-level tools for evaluating hybrid systems of this form, and there are heavy-duty toolboxes such as http://www.dii.unisi.it/hybrid/toolbox/. The code provided here falls between these two levels and acts as a lightweight, high-level abstraction for simple-to-medium complexity hybrid systems.

This release also includes two demonstrations of hybrid_integrator.m applied to a bouncing ball: one modeled with a coefficient of restitution at impact, and a second with a spring-damper contact model.

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Ross Hatton (2024). Hybrid Integrator (https://www.mathworks.com/matlabcentral/fileexchange/29325-hybrid-integrator), MATLAB Central File Exchange. Recuperado 27 julio, 2024.

Compatibilidad con la versión de MATLAB

Se creó con R2010a

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hybrid_integrator(model,t,IC,domain,forces,output_style)

hybrid_integrator_demos/

Versión	Publicado	Notas de la versión
1.0.0.0	8 nov 2010		Descargar