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Reports (Research Report) Year : 2013

A Hybrid Linear Logic for Constrained Transition Systems with Applications to Molecular Biology

Abstract

Linear implication can represent state transitions, but real transition systems operate under temporal, stochastic or probabilistic constraints that are not directly representable in ordinary linear logic. We propose a general modal extension of intuitionistic linear logic where logical truth is indexed by constraints and hybrid connectives combine constraint reasoning with logical reasoning. The logic has a focused cut-free sequent calculus that can be used to internalize the rules of particular constrained transition systems; we illustrate this with an adequate encoding of the synchronous stochastic pi-calculus. We also present some preliminary experiments of direct encoding of biological systems in the logic.
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Dates and versions

inria-00402942 , version 1 (01-10-2009)
inria-00402942 , version 2 (01-10-2009)
inria-00402942 , version 3 (21-10-2009)
inria-00402942 , version 4 (10-12-2010)
inria-00402942 , version 5 (16-10-2013)

Identifiers

  • HAL Id : inria-00402942 , version 5
  • ARXIV : 1310.4310

Cite

Kaustuv Chaudhuri, Joelle Despeyroux. A Hybrid Linear Logic for Constrained Transition Systems with Applications to Molecular Biology. [Research Report] 2013, pp.30. ⟨inria-00402942v5⟩
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