The MegaM@Rt2 ECSEL project: MegaModelling at Runtime – Scalable model-based framework for continuous development and runtime validation of complex systems

The changing needs of society informed by rapid technological, social and ecological changes have disturbed the foundation of permanence on which much of architecture was built. Traditional Western architecture is too solid, hard, and slow—presenting difficulties for it to adequately adapt to change and uncertainty. A reconceptualization of architecture is necessary, one not focused on the certainty of solutions or forms, but one patterned by the dynamic feedback of human agency and environmental forces. For architecture to adapt, and to adapt to unpredictable circumstances, requires that architecture accept uncertainty in its formulation and materialization. Embracing systems-based thinking, a conceptual model based on the complex systems of granular matter provides a unique approach to architecture’s material and immaterial structures. Architecture will then be critically poised at the edge of chaos, ready to reorganize and evolve towards a new fluid paradigm.

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Model-based diagnosis of complex systems: Structuring and temporal reasoning

IFAC Proceedings Volumes ◽

10.1016/b978-0-08-041698-4.50012-3 ◽

1991 ◽

Vol 24 (10) ◽

pp. 41-45

Author(s):

T. Hübner

Keyword(s):

Complex Systems ◽

Temporal Reasoning ◽

Model Based

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On Developing Hybrid Modeling Methods using Metamodeling Platforms

International Journal of Information System Modeling and Design ◽

10.4018/ijismd.2015010103 ◽

2015 ◽

Vol 6 (1) ◽

pp. 47-66

Author(s):

Srdjan Zivkovic ◽

Krzystof Miksa ◽

Harald Kühn

Keyword(s):

Complex Systems ◽

Hybrid Modeling ◽

Modeling Languages ◽

Modeling Tools ◽

Analysis And Design ◽

Domain Specific ◽

Modeling Methods ◽

Model Based ◽

Domain Specific Modeling ◽

Specific Modeling

It has been acknowledged that model-based approaches and domain-specific modeling (DSM) languages, methods and tools are beneficial for the engineering of increasingly complex systems and software. Instead of general-purpose one-size-fits-all modeling languages, DSM methods facilitate model-based analysis and design of complex systems by providing modeling concepts tailored to the specific problem domain. Furthermore, hybrid DSM methods combine single DSM methods into integrated modeling methods, to allow for multi-perspective modeling. Metamodeling platforms provide flexible means for design and implementation of such hybrid modeling methods and appropriate domain-specific modeling tools. In this paper, we report on the conceptualization of a hybrid DSM method in the domain of network physical devices management, and its implementation based on the ADOxx metamodeling platform. The method introduces a hybrid modeling approach. A dedicated DSM language (DSML) is used to model the structure of physical devices and their configurations, whereas the formal language for knowledge representation OWL2 is used to specify configuration-related constraints. The outcome of the work is a hybrid, semantic technology-enabled DSM tool that allows for efficient and consistency-preserving model-based configuration of network equipment.

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APPLYING MODEL-BASED SYSTEMS ENGINEERING TO THE DEVELOPMENT OF AUTONOMOUS VESSEL FUNCTIONS

Proceedings of the Design Society: DESIGN Conference ◽

10.1017/dsd.2020.170 ◽

2020 ◽

Vol 1 ◽

pp. 2455-2464

Author(s):

O. Bleisinger ◽

S. Forte ◽

C. Apostolov ◽

M. Schmitt

Keyword(s):

Complex Systems ◽

Systems Engineering ◽

Usage Phase ◽

Model Based ◽

Civil Sector ◽

External Actors ◽

Model Based Systems Engineering ◽

Autonomous Vessel ◽

Operational Aspects

AbstractDeveloping autonomous functions for complex systems leads to high demands on the consideration of dependencies to external actors in the usage phase. In Model-Based Systems Engineering (MBSE), this can be achieved by modelling operational aspects. Operational aspects are model elements and their relationships to each other. In this contribution, modelling of operational aspects with a MBSE-approach will be demonstrated exemplary on a case study related to the development of a yacht with an autonomous docking assistant. Currently modelling operational aspects is not common in the civil sector.

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