Closed-Loop Product Life Cycle Management - Using Smart by Markus Frey

By Markus Frey

The PROMISE applied sciences are a brand new form of closed-loop Product existence Cycle administration (PLM) utilizing shrewdpermanent embedded structures, which permit monitoring of product info perpetually and in any situation world wide. This new closed-loop PLM, constructed and confirmed within the clever production platforms (IMS) venture PROMISE, permits product clients, maintainers, and brands to control the existence cycle details in their items seamlessly over all existence cycle levels. higher realizing of product lifestyles cycles ends up in technique advancements and decreased overall product bills; greater product caliber; greater offer chain potency; and higher rebuilding and recycling offerings. This ebook offers commercial clients, in addition to the extensive R&D group with an realizing of the rules in the back of the PROMISE applied sciences, their profitable implementation within the PROMISE demonstrators, and their huge, immense power to enhance aggressive virtue around the business spectrum.
Content:
• entrance subject
• checklist of Figures
• record of Tables
• Preface
• desk of Contents
1. advent
2. targets, rules, and Cornerstones
three. PROMISE applied sciences
four. PROMISE Demonstrators
five. merits of utilizing PROMISE applied sciences
Index

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Extra resources for Closed-Loop Product Life Cycle Management - Using Smart Embedded Systems

Sample text

ISC allows these systems to use and to request PEID and product data. Any system that can make calls through the PMI can connect and use ISC to locate and communicate data. This allows for the integration of third-party systems without complicated integration into the PDKM system and without direct connection to backend systems. This is an important feature, since a complete list of systems that might use the PEID data and ISC cannot be defined in advance. Requirements Analysis of the user requirements during the EU-funded PROMISE project led to the following conclusions: • A variety of disparate backend systems need to be integrated and it is infeasible to implement interfaces for all of these systems within PROMISE.

1-4, many of these are exploiting wireless protocols. 1-4 AIDC technologies are expanding 42 Closed-Loop Product Life Cycle Management—Using Smart Embedded Systems It would be inappropriate for PROMISE to attempt to control the rapid development of such technologies, since this would either limit their applicability to a PROMISE implementation or encourage the development of parallel or competing architectural solutions. The options for hardware integration using different PEID types, particularly using the Core PAC Interface (Type 2 or 3 PEID) or the PMI (Type 4 PEID), offer the flexibility to integrate emerging and future identification technologies, sensors, and other data collection mechanisms into the PROMISE architecture.

1-6 PROMISE interface relationships Although not shown in the preceding figure, the PROMISE architecture also identifies the PMI as the interface for data exchange between separate PROMISE Data Services instances or implementations, where one or more data services nodes are interconnected. 1-6: 1. The Core PAC interface provides the level of abstraction between a Device Controller that is integrated in the PROMISE Data Services implementation (Internal DC) and the PEID or group of PEIDs accessed by it.

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