Methode zur Parameteroptimierung komplexer Mechanismen hinsichtlich kinematischer Anforderungen

DFX 2016: Proceedings of the 27th Symposium Design for X, 5-6 October 2016, Jesteburg, Germany

Year: 2016
Editor: Dieter Krause, Kristin Paetzold, Sandro Wartzack
Author: Heling, Björn; Wartzack, Sandro
Series: DfX
Institution: Friedrich-Alexander-Universität Erlangen-Nürnberg
Section: Simulation
Page(s): 111-122
ISBN: 978-3-946094-09-8

Abstract

Shorter product life cycles along with continuously changing requirements lead to a demand for more efficient product development processes. Resulting from these upcoming challenges the guiding principle „Right-First-Time“ focuses on a reduction of iteration loops during product development. As a consequence product developers need suitable tools and methods to allow a more efficient product development process. In this contribution a new method, which is based on methods for the conceptions of systems in motion and Robust-Design principles, is presented. This novel combination takes kinematic requirements as well as possible geometric uncertainties into account. As a consequence the designed system not only fulfills the kinematic requirements but is also insensitive to deviations from the ideal state.

Keywords: Robust Design, Parameter Optimization, Taguchi Method, kinematic design