Print Email Facebook Twitter Towards a methodology of system manifestation features-based pre-embodiment design Title Towards a methodology of system manifestation features-based pre-embodiment design Author Pourtalebi Hendehkhaleh, S. (TU Delft Cyber-Physical Systems) Horvath, I. (TU Delft Cyber-Physical Systems) Date 2016-02-05 Abstract The main assumption is that complicated systems, such as cyberphysical systems (CPSs), can be modelled by specific compositions of system manifestation features (SMFs). SMFs are regarded as architectural domains of a system having significance from an operational viewpoint. As system modelling entities, SMFs represent both physical and computing transformations ofdomains. Based on mereo-operandi theory (MOT), a computational framework for using SMFs in pre-embodiment design of CPSs is proposed. MOT offers a theoretical platform for concurrent modelling of architectural elements and theiroperations. The traditional ‘application feature technology’ has been generalised in order to provide a methodological basis. The computational formalisation captures state transitions and input/output streams, in addition to spatiotemporal, physical and/or computational attributes of domains. Domain transformations are represented by flows of operation (FoOs) that consist of timesequenced and logically constrained sets of units of operations (UoOs), and processed by various computational methods as procedures. The domains of SMFs are aggregated into a feasible architecture, and their UoOs are combined into FoOs. An application case is used to explain the concepts and todemonstrate feasibility of the proposed approach. Further research will focus on implementation of an SMFs-based preembodiment design system and testing its feasibility and usability with designers of CPSs. Subject Cyber-physical systemspre-embodimentsystem manifestation featuresmereo-operandi theoryarchitecture and operation knowledge frames To reference this document use: http://resolver.tudelft.nl/uuid:b2622d8f-3389-4c62-90a5-816b2fa3d432 DOI https://doi.org/10.1080/09544828.2016.1141183 ISSN 0954-4828 Source Journal of Engineering Design, 27 (4-6), 232-268 Part of collection Institutional Repository Document type journal article Rights © 2016 S. Pourtalebi Hendehkhaleh, I. Horvath Files PDF 09544828.2016.1141183.pdf 5.86 MB Close viewer /islandora/object/uuid:b2622d8f-3389-4c62-90a5-816b2fa3d432/datastream/OBJ/view