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Theoret. Informatics Appl. 35, 1-29 (2001)
Integrating Observational and Computational Features in the Specification of State-Based, Dynamical Systems
Corina CîrsteaOxford University Computing Laboratory, Wolfson Building, Parks Road, Oxford OX1 3QD, U.K.; (corina.cirstea@comlab.ox.ac.uk)
( Accepted April 25, 2001.)
Abstract
We present an abstract equational framework for the specification of systems having both
observational and computational features. Our approach is based on a clear separation between the two
categories of features, and uses algebra, respectively coalgebra to formalise them. This yields a
coalgebraically-defined notion of observational indistinguishability, as well as an algebraically-defined
notion of reachability under computations. The relationship between the computations yielding new system
states and the observations that can be made about these states is specified using liftings of the
coalgebraic structure of state spaces to a coalgebraic structure on computations over these state spaces.
Also, correctness properties of system behaviour are formalised using equational sentences, with the
associated notions of satisfaction abstracting away observationally indistinguishable, respectively
unreachable states, and with the resulting proof
techniques employing coinduction, respectively induction.
AMS Subject: 18C10, 03C65, 68Q55, 68N30
© EDP Sciences 2001
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