Abstract
Most products are developed in generations. This needs to be considered with regard to development methods and processes to make existing knowledge available to achieve increased efficiency. To realize this, the approach of PGE – product generation engineering – is formulated. Product generation engineering is understood as the development of products based on reference products (precursor or competitor products). The subsystems are either adapted to the new product generation by means of carryover or they are newly developed based on shape variation or principle variation. Validation is considered as the central activity in the product engineering process and is a major challenge, especially for complex mechatronic systems. Therefore, it is important to understand validation as an ongoing activity during product development. The pull principle of validation describes the definition and development of validation activities, including models and validation environments based on specific validation objectives. In order to have effectiveness within validation of subsystems, it is necessary to map the interactions with the overall system, namely the super-system. The relevant subsystems can be connected under consideration of functional and energetic aspects by means of virtual, physical or mixed virtual–physical modeling applied by the holistic IPEK-X-in-the-Loop approach within the integrated Product engineering Model (iPeM).
Highlights
Introduction and motivationProduct development is always subject to a technological uncertainty, which is accompanied by market uncertainty
IPEK has formed and implemented the holistic IPEK-X-in-the-Loop (IPEK-XiL) approach within the integrated Product engineering Model in order to enable a continuous validation in the design process
The resource requirement was significantly reduced as the validation environment (IPEK acoustic roller test stand) was extended and qualified for the questioning of hybrid development, e.g. resulting in a 50% reduction of analysis time compared with road tests
Summary
Product development is always subject to a technological uncertainty, which is accompanied by market uncertainty. According to Albers, the success and competitiveness of a company will increasingly depend on how quickly it can absorb knowledge (expand its knowledge base), make it accessible (obtain a knowledge base) and exploit it (use the knowledge base for problem solving). The most important activity to extend the knowledge base is validation (Albers 2010). IP address: 34.230.40.50, on 02 Nov 2021 at 13:13:36, subject to the Cambridge Core terms of use, available at https://www.cambridge.org/core/terms. Technological and market uncertainties in product development. The objective is to strengthen the role of validation in product development as well as to support the integration and implementation of efficient and effective validation activities.
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