Agent Oriented Zero Defect Multi-stage Manufacturing - GO0D MAN

Programme: H2020-EU.2.1.5.1. - Technologies for Factories of the Future
Topic: FOF-03-2016 - Zero-defect strategies at system level for multi-stage manufacturing in production lines
Call for proposal: H2020-FOF-2016
Funding Scheme: IA - Innovation action
Grant agreement ID: 723764

Objective: Multi-stage manufacturing, which is typical in important industrial sectors such as automotive, house hold appliance and semiconductor manufacturing just to name few, is inherently complex. The main idea of GO0D MAN project is to integrate and combine process and quality control for a multi –stage manufacturing production into a distributed system architecture built on agent-based Cyber-Physical Systems (CPS) and smart inspection tools designed to support Zero-Defect Manufacturing (ZDM) strategies. Data analytics tools provide a mean for knowledge build-up, system control and ZDM management. Real time and early identi cation of deviations and trends, performed at local level, allow to prevent the generation of defects at single stage and their propagation to down-stream processes, enabling the global system to be predictive (early detection of process faults) and proactive (self- adaptation to different conditions). The GO0D MAN project is based on the results of previous successful EU projects and integrates them to realize and deploy a Zero Defect Manufacturing framework for multi-stage production lines, in collaboration with industry partners, a system integrator, two technology providers and three end users. The use cases are representative of key European industrial sectors and have different types of multi- stage production systems: the rst use case concerns highly automated serial mass production of automotive components, the second use case is about batch production of high precision mechanical components for automotive electro valves, the third use case produces professional customized products such as ovens for restaurants. Successful completion of this project will provide a replicable systemarchitecture for ZDM. The results will be broadly applicable in a variety of industries to improve the overall quality and productivity of production systems.