%0 Journal Article
%T Implicit Identification of Contact Parameters in a Continuous Chain Model
%A S.E. S£¿rensen
%A M.R. Hansen
%A M.K. Ebbesen
%A O.£¿. Mouritsen
%J Modeling, Identification and Control
%D 2011
%I Norwegian Society of Automatic Control
%R 10.4173/mic.2011.1.1
%X Accurate contact modeling is of great importance in the field of dynamic chain simulations. In this paper emphasis is on contact dynamics for a time-domain simulation model of large chains guided in a closed loop track. The chain model is based on theory for unconstrained rigid multibody dynamics where contact within the chain and with the track is defined through continuous point contacts using the contact indentation and rate as means. This paper presents an implicit method to determine contact parameters of the chain model through the use of none gradient optimization methods. The set of model parameters are estimated by minimizing the residual between simulated and measured results. The parameter identification is tested on four different formulations of the Hunt-Crossly hysteresis damping factor with the aim of recognizing a superior model.
%K Contact model
%K Optimization methods
%K Experimental measurements
%U http://www.mic-journal.no/PDF/2011/MIC-2011-1-1.pdf