Dynamic System Adaptation by Constraint Orchestration
L.P.J. Groenewegen, E.P. de Vink
TL;DR
This paper introduces a method for dynamic system adaptation using constraint orchestration, enabling on-the-fly evolution of Paradigm models with visual UML-like diagrams, demonstrated through a critical section to pipeline architecture migration.
Contribution
It presents a novel approach for real-time system evolution via constraint orchestration in Paradigm models, including visual migration support.
Findings
Enables consistent on-the-fly system evolution.
Supports visual migration with UML-like diagrams.
Demonstrates adaptation from critical section to pipeline architecture.
Abstract
For Paradigm models, evolution is just-in-time specified coordination conducted by a special reusable component McPal. Evolution can be treated consistently and on-the-fly through Paradigm's constraint orchestration, also for originally unforeseen evolution. UML-like diagrams visually supplement such migration, as is illustrated for the case of a critical section solution evolving into a pipeline architecture.
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Taxonomy
TopicsModel-Driven Software Engineering Techniques · Advanced Software Engineering Methodologies · Service-Oriented Architecture and Web Services