Olivier Namet scite author profile

Olivier Namet

4Publications

76Citation Statements Received

138Citation Statements Given

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138

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King's College London

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PORGY: Strategy-Driven Interactive Transformation of Graphs

Andrei

Fernández

Kirchner

et al. 2011

Electron. Proc. Theor. Comput. Sci.

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This paper investigates the use of graph rewriting systems as a modelling tool, and advocates the embedding of such systems in an interactive environment. One important application domain is the modelling of biochemical systems, where states are represented by port graphs and the dynamics is driven by rules and strategies. A graph rewriting tool's capability to interactively explore the features of the rewriting system provides useful insights into possible behaviours of the model and its properties. We describe PORGY, a visual and interactive tool we have developed to model complex systems using port graphs and port graph rewrite rules guided by strategies, and to navigate in the derivation history. We demonstrate via examples some functionalities provided by PORGY

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A Strategy Language for Graph Rewriting

Fernández¹,

Kirchner²,

Namet³

2012

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Abstract. We give a formal semantics for a graph-based programming language, where a program consists of a collection of graph rewriting rules, a user-defined strategy to control the application of rules, and an initial graph to be rewritten. The traditional operators found in strategy languages for term rewriting have been adapted to deal with the more general setting of graph rewriting, and some new constructs have been included in the language to deal with graph traversal and management of rewriting positions in the graph. This language is part of the graph transformation and visualisation environment PORGY.

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Strategic programming on graph rewriting systems

Fernández

Namet

2010

Electron. Proc. Theor. Comput. Sci.

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Graph Creation, Visualisation and Transformation

Fernández

Namet

2010

Electron. Proc. Theor. Comput. Sci.

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We describe a tool to create, edit, visualise and compute with interaction nets - a form of graph rewriting systems. The editor, called GraphPaper, allows users to create and edit graphs and their transformation rules using an intuitive user interface. The editor uses the functionalities of the TULIP system, which gives us access to a wealth of visualisation algorithms. Interaction nets are not only a formalism for the specification of graphs, but also a rewrite-based computation model. We discuss graph rewriting strategies and a language to express them in order to perform strategic interaction net rewriting

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Olivier Namet

PORGY: Strategy-Driven Interactive Transformation of Graphs

A Strategy Language for Graph Rewriting

Strategic programming on graph rewriting systems

Graph Creation, Visualisation and Transformation

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