Mechanizing a Process Algebra for Network Protocols

Timothy Bourke; Robert J. van Glabbeek; Peter Höfner

doi:10.1007/s10817-015-9358-9

Mechanizing a Process Algebra for Network Protocols

Timothy Bourke
, Robert J. van Glabbeek
, Peter Höfner

École Polytechnique

Commonwealth Scientific and Industrial Research Organization

Research output: Contribution to journal › Article › peer-review

Abstract

This paper presents the mechanization of a process algebra for Mobile Ad hoc Networks and Wireless Mesh Networks, and the development of a compositional framework for proving invariant properties. Mechanizing the core process algebra in Isabelle/HOL is relatively standard, but its layered structure necessitates special treatment. The control states of reactive processes, such as nodes in a network, are modelled by terms of the process algebra. We propose a technique based on these terms to streamline proofs of inductive invariance. This is not sufficient, however, to state and prove invariants that relate states across multiple processes (entire networks). To this end, we propose a novel compositional technique for lifting global invariants stated at the level of individual nodes to networks of nodes.

Original language	English
Pages (from-to)	309-341
Number of pages	33
Journal	Journal of Automated Reasoning
Volume	56
Issue number	3
DOIs	https://doi.org/10.1007/s10817-015-9358-9
Publication status	Published - 1 Mar 2016

Keywords

Compositional invariant proofs
Interactive theorem proving
Isabelle/HOL
Mobile Ad hoc Networks
Process algebra
Wireless Mesh Networks

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10.1007/s10817-015-9358-9

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title = "Mechanizing a Process Algebra for Network Protocols",

abstract = "This paper presents the mechanization of a process algebra for Mobile Ad hoc Networks and Wireless Mesh Networks, and the development of a compositional framework for proving invariant properties. Mechanizing the core process algebra in Isabelle/HOL is relatively standard, but its layered structure necessitates special treatment. The control states of reactive processes, such as nodes in a network, are modelled by terms of the process algebra. We propose a technique based on these terms to streamline proofs of inductive invariance. This is not sufficient, however, to state and prove invariants that relate states across multiple processes (entire networks). To this end, we propose a novel compositional technique for lifting global invariants stated at the level of individual nodes to networks of nodes.",

keywords = "Compositional invariant proofs, Interactive theorem proving, Isabelle/HOL, Mobile Ad hoc Networks, Process algebra, Wireless Mesh Networks",

author = "Timothy Bourke and \{van Glabbeek\}, \{Robert J.\} and Peter H{\"o}fner",

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AB - This paper presents the mechanization of a process algebra for Mobile Ad hoc Networks and Wireless Mesh Networks, and the development of a compositional framework for proving invariant properties. Mechanizing the core process algebra in Isabelle/HOL is relatively standard, but its layered structure necessitates special treatment. The control states of reactive processes, such as nodes in a network, are modelled by terms of the process algebra. We propose a technique based on these terms to streamline proofs of inductive invariance. This is not sufficient, however, to state and prove invariants that relate states across multiple processes (entire networks). To this end, we propose a novel compositional technique for lifting global invariants stated at the level of individual nodes to networks of nodes.

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KW - Interactive theorem proving

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KW - Wireless Mesh Networks

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JO - Journal of Automated Reasoning

JF - Journal of Automated Reasoning

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Mechanizing a Process Algebra for Network Protocols

Abstract

Keywords

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