Multidisciplinary design methodology for mechatronic systems based on interface model

Mechatronic system is considered as the resulting integration of electrical/electronic system, mechanical parts and information processing. Therefore, to enable a systematic design process of mechatronic systems with a high-level integration, the so-called multidisciplinary integrated design is requ...

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Bibliographic Details
Published in:Research in engineering design Vol. 28; no. 3; pp. 333 - 356
Main Authors: Zheng, Chen, Hehenberger, Peter, Le Duigou, Julien, Bricogne, Matthieu, Eynard, Benoît
Format: Journal Article
Language:English
Published: London Springer London 01.07.2017
Springer Nature B.V
Springer Verlag
Subjects:
CAE) and Design
Computer Aided Engineering
Computer Science
Computer-Aided Engineering (CAD
Consistency
Data processing
Design
Design engineering
Designers
Electronics industry
Engineering
Engineering Design
Engineering Sciences
Methodology
Original Paper
Phases
Systems engineering
Multidisciplinary integration
Interface modelling
Design methodology
Mechatronic design
ISSN:0934-9839, 1435-6066
Online Access:Get full text
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Summary:Mechatronic system is considered as the resulting integration of electrical/electronic system, mechanical parts and information processing. Therefore, to enable a systematic design process of mechatronic systems with a high-level integration, the so-called multidisciplinary integrated design is required. However, neither academia nor industry has yet provided an effective solution, which can fully support the whole design process to achieve such multidisciplinary integrated design. In order to organise the design activities from different disciplines and to aid the designers to achieve the multidisciplinary integrated design, the authors propose a design methodology based on a multidisciplinary interface model. In line with the systems engineering practices, an extended V-model is used as the macro-level process in the proposed design methodology. It starts with identification of requirements on the entire system and ends with a user-validated system. The hierarchical design model is adopted as the micro-level process. It supports the specific design phases where individual designers can structure design sub-tasks and proceed and react in unforeseen situations. To ensure the consistency and traceability between the two levels, the multidisciplinary interface model is proposed. This design methodology is demonstrated by studying the design process of a quadrotor.
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ISSN:0934-9839
1435-6066
DOI:10.1007/s00163-016-0243-2