Axiomatising weak bisimulation congruences over CCS with left merge and communication merge

Luca Aceto; Valentina Castiglioni; Anna Ingólfsdóttir; Bas Luttik

doi:10.1016/j.tcs.2025.115325

Axiomatising weak bisimulation congruences over CCS with left merge and communication merge

Luca Aceto
, Valentina Castiglioni
, Anna Ingólfsdóttir
, Bas Luttik

Department of Computer Science

Reykjavik University

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

Abstract

Classic weak bisimulation-based congruences are not finitely axiomatisable over (the recursion, relabelling, and restriction free fragment of) CCS. Motivated by these negative results, this paper studies the role of auxiliary operators in the finite equational characterisation of CCS parallel composition modulo those congruences. Firstly, we consider CCS with interleaving and left merge. We provide finite equational bases for this language modulo branching, η, delay, and weak bisimulation congruence. In particular, the completeness proofs for η, delay, and weak bisimulation congruence are obtained by reduction to the completeness result for branching bisimulation congruence. Then we extend the language with full merge and communication merge. In this case we provide an equational basis modulo branching bisimulation congruence under the assumption that the set of action names is infinite.

Original language	English
Article number	115325
Journal	Theoretical Computer Science
Volume	1047
DOIs	https://doi.org/10.1016/j.tcs.2025.115325
Publication status	Published - 3 Sept 2025

Bibliographical note

Other keywords

Auxiliary operators
CCS
Equational basis
Parallel composition
Weak bisimulation semantics

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10.1016/j.tcs.2025.115325Licence: CC BY

Cite this

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title = "Axiomatising weak bisimulation congruences over CCS with left merge and communication merge",

abstract = "Classic weak bisimulation-based congruences are not finitely axiomatisable over (the recursion, relabelling, and restriction free fragment of) CCS. Motivated by these negative results, this paper studies the role of auxiliary operators in the finite equational characterisation of CCS parallel composition modulo those congruences. Firstly, we consider CCS with interleaving and left merge. We provide finite equational bases for this language modulo branching, η, delay, and weak bisimulation congruence. In particular, the completeness proofs for η, delay, and weak bisimulation congruence are obtained by reduction to the completeness result for branching bisimulation congruence. Then we extend the language with full merge and communication merge. In this case we provide an equational basis modulo branching bisimulation congruence under the assumption that the set of action names is infinite.",

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AU - Aceto, Luca

AU - Castiglioni, Valentina

AU - Ingólfsdóttir, Anna

AU - Luttik, Bas

PY - 2025/9/3

Y1 - 2025/9/3

N2 - Classic weak bisimulation-based congruences are not finitely axiomatisable over (the recursion, relabelling, and restriction free fragment of) CCS. Motivated by these negative results, this paper studies the role of auxiliary operators in the finite equational characterisation of CCS parallel composition modulo those congruences. Firstly, we consider CCS with interleaving and left merge. We provide finite equational bases for this language modulo branching, η, delay, and weak bisimulation congruence. In particular, the completeness proofs for η, delay, and weak bisimulation congruence are obtained by reduction to the completeness result for branching bisimulation congruence. Then we extend the language with full merge and communication merge. In this case we provide an equational basis modulo branching bisimulation congruence under the assumption that the set of action names is infinite.

AB - Classic weak bisimulation-based congruences are not finitely axiomatisable over (the recursion, relabelling, and restriction free fragment of) CCS. Motivated by these negative results, this paper studies the role of auxiliary operators in the finite equational characterisation of CCS parallel composition modulo those congruences. Firstly, we consider CCS with interleaving and left merge. We provide finite equational bases for this language modulo branching, η, delay, and weak bisimulation congruence. In particular, the completeness proofs for η, delay, and weak bisimulation congruence are obtained by reduction to the completeness result for branching bisimulation congruence. Then we extend the language with full merge and communication merge. In this case we provide an equational basis modulo branching bisimulation congruence under the assumption that the set of action names is infinite.

KW - Auxiliary operators

KW - CCS

KW - Equational basis

KW - Parallel composition

KW - Weak bisimulation semantics

UR - https://www.scopus.com/pages/publications/105005504789

UR - https://iris.ru.is/ws/files/243529739/1-s2.0-S0304397525002634-main.pdf

U2 - 10.1016/j.tcs.2025.115325

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JO - Theoretical Computer Science

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ER -

Axiomatising weak bisimulation congruences over CCS with left merge and communication merge

Abstract

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