We propose an abstract framework for modeling state-based systems with internal behavior as e.g. given by silent or -transitions. Our approach employs monads with a parametrized fixpoint operator to give a semantics to those systems and implement a sound procedure of abstraction of the internal transitions, whose labels are seen as the unit of a free monoid. More broadly, our approach extends the standard coalgebraic framework for state-based systems by taking into account the algebraic structure of the labels of their transitions. This allows to consider a wide range of other examples, including Mazurkiewicz traces for concurrent systems. © 2014 IFIP International Federation for Information Processing.
How to kill epsilons with a dagger: A coalgebraic take on systems with algebraic label structure
Bonchi, Filippo;
2014-01-01
Abstract
We propose an abstract framework for modeling state-based systems with internal behavior as e.g. given by silent or -transitions. Our approach employs monads with a parametrized fixpoint operator to give a semantics to those systems and implement a sound procedure of abstraction of the internal transitions, whose labels are seen as the unit of a free monoid. More broadly, our approach extends the standard coalgebraic framework for state-based systems by taking into account the algebraic structure of the labels of their transitions. This allows to consider a wide range of other examples, including Mazurkiewicz traces for concurrent systems. © 2014 IFIP International Federation for Information Processing.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
