Embedded Mechatronic Systems

Embedded Mechatronic Systems

Mechatronics brings together computer science, mechanics and electronics. It enables us to improve the performances of embedded electronic systems by reducing their weight, volume, energy consumption and cost. Mechatronic equipment must operate without failure throughout ever-increasing service lives.The particularly severe conditions of use of embedded mechatronics cause failure mechanisms which are the source of breakdowns. Until now, these failure phenomena have not been looked at with enough depth to be able to be controlled. - Provides a statistical approach to design optimization through reliability - Presents an experimental approach for the characterization of the development of mechatronic systems in operating mode - Analyzes new tools that effect thermal, vibratory, humidity, electric and electromagnetic stresses

Embedded Mechatronic Systems, Volume 2

In operation, mechatronics embedded systems are stressed by loads of different causes: climate (temperature, humidity), vibration, electrical and electromagnetic. These stresses in components induce failure mechanisms should be identified and modeled for better control. AUDACE is a collaborative project of the cluster Mov'eo that address issues specific to mechatronic reliability embedded systems. AUDACE means analyzing the causes of failure of components of mechatronic systems onboard. The goal of the project is to optimize the design of mechatronic devices by reliability. The project brings together public sector laboratories that have expertise in analysis and modeling of failure, major groups of mechatronics (Valeo and Thales) in the automotive and aerospace and small and medium enterprises that have skills in characterization and validation tests. - Find and develop ways to characterize and validate the design robustness and reliability of complex mechatronic devices - Develop ways to characterize physical and chemical phenomena, - Identify mechanisms of failure of components of these devices, - Analyze the physical and / or chemical mechanisms of failure, in order of importance - To model failure mechanisms and design optimization.

Embedded Mechatronic Systems 2