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D412: MODULARISATION AND ADAPTABILITY IN COMPLEX SYSTEMS DESIGN
Time:
Thursday, 23/May/2024:
8:15am - 10:15am
Session Chair: Dieter Krause, Hamburg University of Technology, Germany
Location:Congress Hall Bobara
Presentations
Applying a product modularization approach on the case of a battery pack
Julia Beibl1, Katharina Zumach1, Sven Wehrend1, Marc Züfle1, Eugen Hein2, Benedikt Plaumann2, Dieter Krause1
1Hamburg University of Technology, Germany; 2Hamburg University of Applied Sciences, Germany
When designing battery packs, opposing target-conflicts and design goals arise due to the different disciplines involved in the development process. Looking at the available technologies for battery pack design, different solutions can be found on the market. The development of a battery pack for use in various scenarios therefore presents an interesting use case to evaluate product modularisation approaches. Hence, this paper discusses the application of the Integrated PKT Approach based on a fictious use case of a modular battery pack to derive potential starting points for its improvement.
From tears to tiers – architectural principles for federated PLM landscapes
Erik Herzog, Johan Tingström, Johanna Wallén Axehill, Åsa Nordling Larsson, Christopher Jouannet
Saab AB, Sweden
PLM systems are key enabling systems in the development of today’s products. Introduction of a new PLM capability is an expensive and risky undertaking. Many implementation projects end in tears in the sense that they are frequently late or even cancelled. In this paper, a federated PLM architecture pattern – Genesis – is introduced and evaluated against prevalent PLM approaches. From an architecture perspective, Genesis with its two distinct integration tiers decrease the number of integration points and thus cost and complexity.
A model to describe logistics service architecture based on product architecture
Erika Marie Strøm, Tine Meidahl Münsberg, Lars Hvam
Technical University of Denmark, Denmark
The growth in e-commerce has led to increased demand for logistics services. This puts a pressure on third-party logistics (3PL) providers who struggle with increasing operating costs and heightened competition. These providers could potentially exploit the advantages of modularisation, but few studies address the design of modular logistics services. This study explores modular design of logistics services and proposes a model to describe logistics service architecture based on product architecture. A case study shows that warehousing services can be described in three domains.
Future-robust product design – validating influencing factors on upgradeable mechatronic systems
Maximilian Kuebler, Carolin Lange, Bastian Glasmacher, Tobias Düser, Albert Albers
Karlsruhe Institute of Technology, Germany
This paper examines upgradability through modular product design, aiming to extend lifecycles and promote cross-generational use. It builds up on a preceding work, a systematic literature- review identifying four fields of action in future-robust product design. The paper itself contains an in-depth interview study with 17 experts from industry and research to validate and expand the literature-based fields of action. The results provide insights into the application and employment of future-robust product design, with a focus on adaptable product architectures.
Management of rule-based product-portfolios with high variance: a systematic literature review
Thorsten Schmidt, Frank Mantwill
Helmut Schmidt University Hamburg, Germany
This paper conducts a systematic literature review about the management of rule-based product-portfolios with high variance. This type of portfolio is particularly distinctive in the chosen use case of the German automotive industry since it satisfies the requirements of mass customization and modularization. However, the research field of variant- and complexity management is manifold and multidimensional. This paper systematically searches the databases Scopus and Web of Science using the PRISMA method and briefly summarizes the main contributions and comparing them by elaborated topics.
Designing lab-on-a-chip systems with attribute dependency graphs
Johannes Soika1, Tobias Wanninger1, Patrick Muschak1, Sebastian Schwaminger1,2, Sonja Berensmeier1,3, Markus Zimmermann1
1Laboratory for Product Development and Lightweight Design, TUM School of Engineering and Design, Technical University of Munich, Germany; 2Division of Medicinal Chemistry, Otto Loewi Research Center, Medical University of Graz, Austriacal University of Munich, Germany; 3Munich Institute for Integrated Materials, Energy and Process Engineering, Technical University of Munich, Germany
Lab-on-a-Chip (LOC) products for point-of-care diagnostics have gained significant attention. However, there is a lack of systematic approaches for LOC product development. To address this, we introduce an Attribute Dependency Graph exemplary for a magnetophoretic LOC system for pathogen detection. This model organizes dependencies between the design variables and crucial quantities of interest, such as detectability, cost per test, and test duration. The obtained model helps to manage design complexity and can be adapted to other LOC approaches.
