Attractiveness maximisation model for designing product complexity

Chiang, Ruei-Ying; Wei, Chiu‐Chi; Cheng, Yi-Chung; Wei, Chiou-Shuei

doi:10.1080/14783363.2018.1522246

Cited by 3 publications

(2 citation statements)

References 15 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The fast-evolving field of additive manufacturing not only presents new possibilities for function integration, but challenges in terms of trade-offs between design objectives, design complexities, and achievable resource efficiency. Function integration can lead to products with a higher value proposition, but too high of a complexity could, for example, result in an increase in product cost, difficulties in user experience, or even overengineering of simple solutions (Chiang et al, 2020).In summary, a designer needs a different approach depending on the design task. Therefore, our aim is to understand what approaches exist for function integration in additive manufacturing and how they compare with respect to their design objective and supported design type.…”

Section: Introductionmentioning

confidence: 99%

Function Integration in Additive Manufacturing: A Review of Approaches

2023

View full text Add to dashboard Cite

This paper provides an overview of established approaches for function integration in additive manufacturing and critically compares their capabilities. One of the decisive factors is how functions and structures are addressed. This is necessary because function integration - among many others - affects material decisions and the manufacturing process chain. It is one of many reasons to rethink the product architecture and a way to support the design of resource-efficient products. Various strategies for function integration exist. However, there are currently no approaches in additive manufacturing that provide systematic support for early function integration.A systematic literature review identified 21 unique approaches. All approaches were categorized according to their abstraction level within a product architecture and their design type to be supported. They were then compared on the basis of their categorization, design objective and strategy for function integration to allow for a better understanding of when to use the approaches in research and practice. Key findings and considerations for adapting function integration approaches to early design stages are presented. In addition, several research gaps were identified.

show abstract

Section: Introductionmentioning

confidence: 99%

Function Integration in Additive Manufacturing: A Review of Approaches

2023

View full text Add to dashboard Cite

show abstract

“…Global competition drives companies to continually innovate new products to gain a long-term competitive advantage with product development from the process of identifying opportunities, analyzing the opportunity, generating ideas, defining the concept, designing the concept, analyzing system, preliminary design, detailed design, prototyping and product testing (Chiang et al , 2020). The introduction of a new product requires a good understanding of customer needs and an analysis of technological, financial and time variables (Maruszewska, 2015).…”

Section: Introductionmentioning

confidence: 99%

Roadmap for product development based on design for six sigma method

Francisco

Canciglieri

Sant’Anna

2022

IJLSS

View full text Add to dashboard Cite

Purpose The Design For Six Sigma (DFSS) methodology is one of the most important to achieving excellence in an organization’s product development process. This paper aims to propose a roadmap for product development based on the DFSS for the consumer durables manufacturing industries. The proposed roadmap presents a systematic approach to the phases of the product development process, integrating the statistical techniques and quality tools that should be used in each phase. Design/methodology/approach This study presents a detailed roadmap for product development, which was built by identifying gaps in the DFSS methods, based on previous studies on the subject. In this step, the opportunities are provided in all phases from creation to discontinuation of the product in the market. In addition, the roadmap presented was validated by team of stakeholders in the product development process of different industrial companies. Findings The proposed roadmap for the product development process based on six sigma design suggests a visual tool with sequential steps and techniques that allow you to follow the evolution of the development process from idea conception until the product is discontinued in the market. Identifying the priorities of organizations, especially the consumer, regarding the quality and reliability of the product. Practical implications The roadmap seeks to facilitate an understanding of the important stages of the product development process and to provide an approach to improving and optimizing the product before the manufacturing process step through the principles of DFSS methodology. This research provides a guide step by step to apply statistical techniques and quality tools in the product development process to achieve high quality and six sigma level in the manufacturing process. Originality/value The proposed roadmap of this research combines design for sigma and product development concepts, covering a wide spectrum of relevant activities that include the product development process, the application of statistical techniques and the design of high-quality durable consumer goods to match manufacturing technologies.

show abstract

On potential strategic framework for green supply chain management in the energy sector using q-rung picture fuzzy AHP & WASPAS decision-making model

Dhumras,

Bajaj

2024

Expert Systems with Applications

View full text Add to dashboard Cite

Attractiveness maximisation model for designing product complexity

Cited by 3 publications

References 15 publications

Function Integration in Additive Manufacturing: A Review of Approaches

Function Integration in Additive Manufacturing: A Review of Approaches

Roadmap for product development based on design for six sigma method

On potential strategic framework for green supply chain management in the energy sector using q-rung picture fuzzy AHP & WASPAS decision-making model

Contact Info

Product

Resources

About