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

Yaniv Mordecai, James Fairbanks, Edward F. Crawley

2021Applied Sciences22 citationsDOIOpen Access PDF

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.

Topics & Concepts

Computer scienceAnalogyArchitectureCognitive architectureModeling languageGraph rewritingCategory theoryCognitive modelTheoretical computer scienceConceptual modelArtificial intelligenceGraphModel transformationUnified Modeling LanguageSoftware engineeringProgramming languageCognitionMathematicsDatabaseSoftwareVisual artsArtNeuroscienceBiologyConsistency (knowledge bases)LinguisticsPhilosophyPure mathematicsSystems Engineering Methodologies and ApplicationsProduct Development and CustomizationSoftware Engineering Techniques and Practices