A computable and compositional semantics for hybrid systems

Davide Bresolin; Pieter Collins; Luca Geretti; Roberto Segala; Tiziano Villa; Sanja Zivanovic Gonzalez

doi:10.1016/j.ic.2024.105189

A computable and compositional semantics for hybrid systems

Davide Bresolin^*, Pieter Collins, Luca Geretti, Roberto Segala, Tiziano Villa, Sanja Zivanovic Gonzalez

^*Corresponding author for this work

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

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Abstract

Hybrid Systems are systems having a mixed discrete and continuous behaviour that cannot be characterised faithfully using either discrete or continuous models only. Due to the intrinsic complexity of hybrid systems, it is highly desirable to describe them compositionally, where large systems are seen as the composition of several simpler subparts that are studied independently. Furthermore, since several problems, including reachability, are undecidable for hybrid systems, the availability of approximate decision procedures is another important feature. In this paper, we propose a purely behavioural formalism for hybrid systems that is compositional and supports approximate decision procedures. The formalism is abstract and sufficiently general to subsume or be a semantic framework for most of the concrete formalisms or languages proposed in the literature.

Original language	English
Article number	105189
Number of pages	38
Journal	Information and Computation
Volume	300
DOIs	https://doi.org/10.1016/j.ic.2024.105189
Publication status	Published - 1 Oct 2024

Keywords

Hybrid automata
Composition
Computability
Computable analysis

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10.1016/j.ic.2024.105189

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abstract = "Hybrid Systems are systems having a mixed discrete and continuous behaviour that cannot be characterised faithfully using either discrete or continuous models only. Due to the intrinsic complexity of hybrid systems, it is highly desirable to describe them compositionally, where large systems are seen as the composition of several simpler subparts that are studied independently. Furthermore, since several problems, including reachability, are undecidable for hybrid systems, the availability of approximate decision procedures is another important feature. In this paper, we propose a purely behavioural formalism for hybrid systems that is compositional and supports approximate decision procedures. The formalism is abstract and sufficiently general to subsume or be a semantic framework for most of the concrete formalisms or languages proposed in the literature.",

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AU - Bresolin, Davide

AU - Collins, Pieter

AU - Geretti, Luca

AU - Segala, Roberto

AU - Villa, Tiziano

AU - Gonzalez, Sanja Zivanovic

PY - 2024/10/1

Y1 - 2024/10/1

N2 - Hybrid Systems are systems having a mixed discrete and continuous behaviour that cannot be characterised faithfully using either discrete or continuous models only. Due to the intrinsic complexity of hybrid systems, it is highly desirable to describe them compositionally, where large systems are seen as the composition of several simpler subparts that are studied independently. Furthermore, since several problems, including reachability, are undecidable for hybrid systems, the availability of approximate decision procedures is another important feature. In this paper, we propose a purely behavioural formalism for hybrid systems that is compositional and supports approximate decision procedures. The formalism is abstract and sufficiently general to subsume or be a semantic framework for most of the concrete formalisms or languages proposed in the literature.

AB - Hybrid Systems are systems having a mixed discrete and continuous behaviour that cannot be characterised faithfully using either discrete or continuous models only. Due to the intrinsic complexity of hybrid systems, it is highly desirable to describe them compositionally, where large systems are seen as the composition of several simpler subparts that are studied independently. Furthermore, since several problems, including reachability, are undecidable for hybrid systems, the availability of approximate decision procedures is another important feature. In this paper, we propose a purely behavioural formalism for hybrid systems that is compositional and supports approximate decision procedures. The formalism is abstract and sufficiently general to subsume or be a semantic framework for most of the concrete formalisms or languages proposed in the literature.

KW - Hybrid automata

KW - Composition

KW - Computability

KW - Computable analysis

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M3 - Article

SN - 0890-5401

VL - 300

JO - Information and Computation

JF - Information and Computation

M1 - 105189

ER -

A computable and compositional semantics for hybrid systems

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Keywords

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