Dag Raudberget scite author profile

Dag Raudberget

5Publications

70Citation Statements Received

82Citation Statements Given

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Affiliations

Jönköping University, Chalmers University of Technology

Publications

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Enhanced function-means modeling supporting design space exploration

Müller

Isaksson

Landahl

et al. 2019

AIEDAM

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One problem in incremental product development is that geometric models are limited in their ability to explore radical alternative design variants. In this publication, a function modeling approach is suggested to increase the amount and variety of explored alternatives, since function models (FM) provide greater model flexibility. An enhanced function-means (EF-M) model capable of representing the constraints of the design space as well as alternative designs is created through a reverse engineering process. This model is then used as a basis for the development of a new product variant. This work describes the EF-M model's capabilities for representing the design space and integrating novel solutions into the existing product structure and explains how these capabilities support the exploration of alternative design variants. First-order analyses are executed, and the EF-M model is used to capture and represent already existing design information for further analyses. Based on these findings, a design space exploration approach is developed. It positions the FM as a connection between legacy and novel designs and, through this, allows for the exploration of more diverse product concepts. This approach is based on three steps – decomposition, design, and embodiment – and builds on the capabilities of EF-M to model alternative solutions for different requirements. While the embodiment step of creating the novel product's geometry is still a topic for future research, the design space exploration concept can be used to enable wider, more methodological, and potentially automated design space exploration.

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Development of product platforms: Theory and methodology

Johannesson

Landahl

Levandowski

et al. 2017

Concurrent Engineering

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There is a trend toward increased customization of goods to satisfy a wide range of customers using product platforms. However, there is an erroneous notion that product platforms can only be used to provide economic viability in production thanks to the reuse of physical components among a family of products. Yet, this is a limited perception of the potential of a product platform. In this article, an object-oriented approach to support the development of product platforms is proposed to increase efficiency through reuse and flexibility of designs among a family of products. Two modes of the platform development process are addressed: platform preparation and platform execution. Platform preparation prescribes the methods needed to model platform objects, using enhanced function-means models and set-based concurrent engineering processes. During the platform execution process, sets of design alternatives can be configured concurrently throughout the conceptual, system, and detailed phases of the platform development. Three cases illustrate how the same approach may be used in different design scenarios: design space exploration and extension, supply-chain collaboration, and configure-to-order. The approach supports system architects and design engineers in making design decisions that propel the platform development work by enabling analysis in stages where designs are immature and evaluating the goodness of the alternatives early. Ultimately, product platforms can be efficiently developed for modularity and scalability to find feasible product variants and meet the needs of a multitude of customers.

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Combining set-based concurrent engineering and function — Means modelling to manage platform-based product family design

Raudberget

Michaelis

Johannesson

2014

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The purpose of this work is to develop a new design methodology for product platforms that combines Enhanced Function-Means Modelling and Set-Based Concurrent Engineering. The methodology presents new ways to narrow down the design space, which is increasingly important when several alternative designs are generated in Set-Based Concurrent Engineering. The result is the Architectural Option Chart that uses functional couplings between functional requirements and design solutions to eliminate unfeasible platform members.

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Modelling and assessing platform architectures in pre-embodiment phases through set-based evaluation and change propagation

Raudberget

Levandowski

Isaksson

et al. 2015

AOP

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A3 reports for knowledge codification, transfer and creation in research and development organisations

Raudberget

Bjursell

2014

IJPD

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Dag Raudberget

Enhanced function-means modeling supporting design space exploration

Development of product platforms: Theory and methodology

Combining set-based concurrent engineering and function — Means modelling to manage platform-based product family design

Modelling and assessing platform architectures in pre-embodiment phases through set-based evaluation and change propagation

A3 reports for knowledge codification, transfer and creation in research and development organisations

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Dag Raudberget

Enhanced function-means modeling supporting design space exploration

Development of product platforms: Theory and methodology

Combining set-based concurrent engineering and function &#x2014; Means modelling to manage platform-based product family design

Modelling and assessing platform architectures in pre-embodiment phases through set-based evaluation and change propagation

A3 reports for knowledge codification, transfer and creation in research and development organisations

Contact Info

Product

Resources

About

Combining set-based concurrent engineering and function — Means modelling to manage platform-based product family design