We begin by reviewing a technique to approximate the dynamics of stochastic programs –written
in a stochastic process algebra– by a hybrid system, suitable to capture a mixed discrete/continuous evolution.
In a nutshell, the discrete dynamics is kept stochastic while the continuous evolution is given in terms of ODEs, and the overall technique, therefore, naturally associates a Piecewise Deterministic Markov Process with a stochastic program.
The specific contribution in this work consists in an increase of the flexibility of the translation scheme, obtained by allowing a dynamic reconfiguration of the degree of discreteness/continuity of the semantics.
We also discuss the relationships of this approach with other hybrid simulation strategies for
biochemical systems.
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