Title :
SYNSYS-ME: Seamless System Engineering to mechanical flow through multiobjective optimization and requirements analysis
Author_Institution :
ENSTA PARISTECH, Palaiseau, France
fDate :
March 31 2014-April 3 2014
Abstract :
Design productivity of complex systems is a major challenge in order to reduce both time to market (T.T.M) and design cost. For this purpose, the fundamental pillars adopted in our approach are : abstraction, integration, automation and optimization. In this paper we describe SYNSYS-ME a Seamless System Engineering to mechanical Flow with multiobjective optimization of simulink models through automatic requirements analysis. We validate our approach through two case studies from the automotive sector.
Keywords :
automotive engineering; cost reduction; design engineering; mechanical engineering computing; optimisation; productivity; time to market; SYNSYS-ME; Simulink model; abstraction; automatic requirements analysis; automation; automotive sector; complex system design productivity; design cost reduction; integration; mechanical flow; multiobjective optimization; seamless system engineering; time to market reduction; Damping; IEC; IEC standards; ISO; Optimization; mechanical; optimization; requirement; system engineering;
Conference_Titel :
Systems Conference (SysCon), 2014 8th Annual IEEE
Conference_Location :
Ottawa, ON
Print_ISBN :
978-1-4799-2087-7
DOI :
10.1109/SysCon.2014.6819290
