Category-Theoretic Formulation of the Model-Based Systems Architecting Cognitive-Computational Cycle

Author(s)

Mordecai, Yaniv; Fairbanks, James P.; Crawley, Edward F.

Abstract

We introduce the Concept→Model→Graph→View Cycle (CMGVC). The CMGVC facilitates coherent architecture analysis, reasoning, insight, and decision making based on conceptual models that are transformed into a generic, robust graph data structure (GDS). The GDS is then transformed into multiple views of the model, which inform stakeholders in various ways. This GDS-based approach decouples the view from the model and constitutes a powerful enhancement of model-based systems engineering (MBSE). The CMGVC applies the rigorous foundations of Category Theory, a mathematical framework of representations and transformations. We show that modeling languages are categories, drawing an analogy to programming languages. The CMGVC architecture is superior to direct transformations and language-coupled common representations. We demonstrate the CMGVC to transform a conceptual system architecture model built with the Object Process Modeling Language (OPM) into dual graphs and a stakeholder-informing matrix that stimulates system architecture insight.

Date issued

2021-02-23

URI

https://hdl.handle.net/1721.1/131336

Department

Massachusetts Institute of Technology. Department of Aeronautics and Astronautics

Publisher

Multidisciplinary Digital Publishing Institute

Citation

Applied Sciences 11 (4): 1945 (2021)

Version: Final published version