Fraunhofer-Institut für Produktionsanlagen und Konstruktionstechnik IPK

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  • Publication
    Functional Architecture for Solution Independent Realizations of Digital Continuity in System Development
    ( 2023)
    Manoury, Marvin Michael
    Product and service creation requires the interdisciplinary collaboration of different stakeholders. In virtual product and service creation these stakeholders generate models and data to describe the product or service over their entire life cycle. For a reliant product creation and optimization, these models and data need to be consistent through all disciplines and life cycle phases. In this publication, a solution-independent functional architecture to foster the digital continuity across the involved disciplines and life cycle phases is described. To achieve it, existing approaches in literature are evaluated and requirements and desired capabilities extracted. An reduced form of the Architecture Analysis & Design Integrated Approach (ARCADIA) is used to describe a functional architecture. Consecutively, existing solutions are mapped to the architecture and evaluated for compliance.
  • Publication
    Potentials of Design Thinking for knowledge transfer of Model-Based Systems Engineering
    ( 2022)
    Manoury, Marvin Michael
    ;
    Horländer, Toni
    ;
    Zimmermann, Thomas
    Industrial products are becoming increasingly complex due to the use and development of mechatronic systems. This increasing complexity is addressed by virtual representations of the systems in the form of interdisciplinary models. Model-Based Systems Engineering (MBSE) supports product development from the early development phase through validation, verification and integration up to later life cycle phases of the product by means of system modeling.Typical drivers for innovations in the industrial environment are business viability, technology driven feasibility and human driven desirability. While business viability and feasibility are considered in most product development processes and innovation driven projects, the human factor is often neglected in this context. This is addressed by a MBSE Capability and Maturation Matrix (CMM), which consists of capabilities for the acquisition and mastering of the MBSE competencies. The authors have considered Design Thinking as a feasible approach to transfer MBSE knowledge and thus support this acquisition MBSE competencies. This publication shall present the first findings on the application of Design Thinking for the creation of a user-centered MBSE introduction event. This event shall be used in further iterative steps to teach non-experts in the MBSE field the required competencies for their work and thus support the CMM development capability.
  • Publication
    Interaction between capabilities of Model Based Systems Engineering on sensor models
    ( 2021)
    Manoury, Marvin Michael
    ;
    Schmidt, Simon
    ;
    Stark, Rainer
    In modern product development, models are often used for different purposes, e.g., system synthesis, trade-off analysis of system parameters or visualization and creation of design concepts. For some models, this purpose as well as the model itself might change over time. New interactions with the target system can occur and new details are added over time. Both have to be integrated immediately into the development procedure. When models are not maintained up to date and not used by different stakeholders, the benefits of the model-based approach are lessened due to the effort for generation and maintenance. The five development capabilities of MBSE, comprising Systems Environment Analytics (SEA), Systems Definition and Derivation (SDD), Systems Interaction Modeling (SIM), Systems Lifecycle Engineering (SLE) and the MBSE Capability and Maturation Matrix (CMM) address this topic on a capability level.In this article, the authors point out the interaction between these d evelopment capabilities on the example of a Pedestrian Emergency Braking System (PEBS) development in automotive industry, with a focus on sensor models. It will be shown exemplary how one development capability might influence another and how this interaction supports the development of complex systems.