An Integrated Approach to Information Modeling for the Sustainable Design of Products

Eddy, Douglas; Krishnamurty, Sundar; Grosse, Ian R.; Witherell, Paul; Wileden, Jack C.; Lewis, Kemper

doi:10.1115/1.4027375

Cited by 12 publications

(2 citation statements)

References 25 publications

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“…Research has shown that the framework for evolvable production systems theory has been incorporated into real management [82], and steps have been taken towards organizational agility [83]. Sustainability standards and regulations requirements have been integrated into the design process [84], and there has been a demonstration of the relationship between human agency theory, institutional theory, ecological modernization theory, and sustainable manufacturing [85]. A multi-objective sustainability approach has been implemented [86], and enterprise resource planning has been integrated with sustainable development and corporate decision-making [87].…”

Section: Descriptive Analysis Of Sustainable Design Methods With Agilitymentioning

confidence: 99%

A Systematic Review on the Implementation of Agility in Sustainable Design Development

Zhao,

Alli,

2023

Designs

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The importance of sustainable design for achieving sustainable development goals (SDG) has become increasingly prevalent. Agility for sustainable design development is a project management approach that aims to provide a flexible and efficient way of developing new products. However, the application of agility for sustainable design development is not well-defined, with unknown processes and benefits. To address this, this study aims to explore the benefits of theoretical research and the application of agility in sustainable design. The study critically examines the application of agility in sustainable design development through a literature review. The results identify eight integration directions of agility that contribute to sustainable design, providing a better understanding of agility and enabling its implementation in the development of new products. This study seeks to create a more coherent and rigorous system of theory and practice for sustainable design.

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Section: Descriptive Analysis Of Sustainable Design Methods With Agilitymentioning

confidence: 99%

A Systematic Review on the Implementation of Agility in Sustainable Design Development

Zhao,

Alli,

2023

Designs

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“…Several ontologies have been developed specifically to manage knowledge in the engineering domain. These include standardized terminologies to describe products [32], functional representation languages, and ontological implementations of them [33,34], as well as ontologies of engineering models [35], decision-making [36], sustainable design [37], and the manufacturing domain [38]. Others have introduced modular and cross-domain ontologies for the purpose of aiding in specific engineering activities.…”

Section: Introductionmentioning

confidence: 99%

A Knowledge-Based Method for Innovative Design for Additive Manufacturing Supported by Modular Ontologies

Hagedorn

Krishnamurty

Grosse

2018

Journal of Computing and Information Science in Engineering

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Additive manufacturing (AM) offers significant opportunities for product innovation in many fields provided that designers are able to recognize the potential values of AM in a given product development process. However, this may be challenging for design teams without substantial experience with the technology. Design inspiration based on past successful applications of AM may facilitate application of AM even in relatively inexperienced teams. While designs for additive manufacturing (DFAM) methods have experimented with reuse of past knowledge, they may not be sufficient to fully realize AM's innovative potential. In many instances, relevant knowledge may be hard to find, lack context, or simply unavailable. This design information is also typically divorced from the underlying logic of a products' business case. In this paper, we present a knowledge based method for AM design ideation as well as the development of a suite of modular, highly formal ontologies to capture information about innovative uses of AM. This underlying information model, the innovative capabilities of additive manufacturing (ICAM) ontology, aims to facilitate innovative use of AM by connecting a repository of a business and technical knowledge relating to past AM products with a collection of knowledge bases detailing the capabilities of various AM processes and machines. Two case studies are used to explore how this linked knowledge can be queried in the context of a new design problem to identify highly relevant examples of existing products that leveraged AM capabilities to solve similar design problems.

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Tiered guidance for risk-informed environmental health and safety testing of nanotechnologies

et al. 2015

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An Integrated Approach to Information Modeling for the Sustainable Design of Products

Cited by 12 publications

References 25 publications

A Systematic Review on the Implementation of Agility in Sustainable Design Development

A Systematic Review on the Implementation of Agility in Sustainable Design Development

A Knowledge-Based Method for Innovative Design for Additive Manufacturing Supported by Modular Ontologies

Tiered guidance for risk-informed environmental health and safety testing of nanotechnologies

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