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Parameter identification for dynamic simulation

A. Joukhadar, F. Garat, C. Laugier

Year
2002
Citations
30

Abstract

Dynamic simulation is potentially a powerful tool for studying complex contact interactions between robots and their environments. One of the main problems of such a simulation is the determination of the model parameters which provide realistic behavior for objects. This paper describes how to identify such parameters for a masses/springs based system (the Robot/spl Phi/ system). This identification process is composed of two main steps: the first step consists in distributing the total mass of the object between the different particles while respecting the inertial properties of the object; the second one consists in finding the values of the physical parameters of the model such as elasticity, viscosity, plasticity, etc. A numerical solution of the first step is described, while a genetic algorithm based approach is proposed for the second step. This approach allows us to find the values of the parameters which provide a consistent behavior under a set of given constraints (position, velocity, volume, etc). It also allows us to minimize the computation time and to attach priorities with these constraints.

Keywords

ComputationComputer scienceRobotInertial frame of referenceIdentification (biology)Process (computing)Set (abstract data type)Elasticity (physics)Position (finance)Object (grammar)

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