Closed-loop PLM for intelligent products in the era of the Internet of things

Kiritsis, Dimitris

doi:10.1016/j.cad.2010.03.002

Cited by 408 publications

(259 citation statements)

References 17 publications

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“…The idea is in line with the concept of product intelligence [33], which incorporates product orders, actual products, and further information into one system. Product intelligence relies on intelligent products, a concept with a wide range of definitions [26,27,33,34,35]. However, all these definitions agree on a common underlying assumption--the objects need to be uniquely traceable.…”

Section: Products and Materials In The Internet Of Thingsmentioning

confidence: 99%

“…This would mean improved productivity, minimized stocks sizes, and reduced lead times for manufacturing companies. The current discussion focuses on the product level, referred to as intelligent products [35], that enable closed loop product life cycle management to fill these targets [27]. Products that collect and carry information about themselves enable a number of services that facilitate the product usage [33].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Material Intelligence: Cross-Organizational Collaboration Driven by Detailed Material Data

Hakanen¹,

Eloranta²,

Töytäri³

et al. 2017

Proceedings of the 50th Hawaii International Conference on System Sciences (2017)

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Section: Products and Materials In The Internet Of Thingsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Material Intelligence: Cross-Organizational Collaboration Driven by Detailed Material Data

Hakanen¹,

Eloranta²,

Töytäri³

et al. 2017

Proceedings of the 50th Hawaii International Conference on System Sciences (2017)

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“…), where real-life industrial applications required the collection and management of product instance-level information for many domains involving heavy and personal vehicles, household equipment, phone switches, etc. [12]. Information such as sensor readings, alarms, assembly, disassembly, shipping events, and other information related to the entire product lifecycle needed to be exchanged between products and systems of different organizations [13].…”

Section: O-mi and O-df: An Efficiency Ratio Modelmentioning

confidence: 99%

O-MI/O-DF standards as interoperability enablers for Industrial Internet: A performance analysis

Robert

Kubler

Traon

et al. 2016

IECON 2016 - 42nd Annual Conference of the IEEE Industrial Electronics Society

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Abstract-The Industrial Internet should provide means to create ad hoc and loosely coupled information flows between objects, users, services, and business domain systems. However, today's technologies and products often feed 'vertical silos' (e.g., vertical/siloed apps), which inevitably result in multiple and non-interoperable systems. Standardization will play an everincreasing part in enabling information to flow between such vertically-oriented closed systems. This paper presents recent IoT messaging standards, notably O-MI (Open Messaging Interface) and O-DF (Open Data Format), whose initial requirements were defined for enhanced collaboration and interoperability in product lifecycle management. The performance of those standards is evaluated in terms of efficiency ratio, defined as the percentage of payload over traffic load. A first analytical model of the efficiency ratio based on the required/basic standard specifications is then proposed. A smart maintenance use case relying on the first version of the standard reference implementation is developed, based on which our analytical model is applied to evaluate the degree of deviation (w.r.t. the standard specifications) of this reference implementation.

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“…This definition highlights the processes regarding to manufacturing and distribution phases, but should be extended by considering also the operation phase of the product, i.e. when the product is performing the functions for what was created and produced, supporting the closed-loop Product Lifecycle Management (PLM) systems, as described in Kiritsis (2011).…”

Section: Concepts and Theorymentioning

confidence: 99%

Intelligent products: The grace experience

Leitão

Rodrigues

Barbosa

et al. 2015

Control Engineering Practice

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a b s t r a c tProduct intelligence is a new industrial manufacturing control paradigm aligned with the context of cyber-physical systems and addressing the current requirements of flexibility, reconfigurability and responsiveness. This paradigm introduces benefits in terms of improvement of the entire product's lifecycle, and particularly the product quality and customization, aiming the customer satisfaction. This paper presents an implementation of a system of intelligent products, developed under the scope of the GRACE project, where an agent-based solution was deployed in a factory plant producing laundry washing machines. The achieved results show an increase of the production and energy efficiency, an increase of the product quality and customization, as well as a reduction of the scrap costs.

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Closed-loop PLM for intelligent products in the era of the Internet of things

Cited by 408 publications

References 17 publications

Material Intelligence: Cross-Organizational Collaboration Driven by Detailed Material Data

Material Intelligence: Cross-Organizational Collaboration Driven by Detailed Material Data

O-MI/O-DF standards as interoperability enablers for Industrial Internet: A performance analysis

Intelligent products: The grace experience

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