Title :
Compositionality via cut-elimination: Hennessy-Milner logic for an arbitrary GSOS
Author :
Simpson, Alex K.
Author_Institution :
Dept. of Comput. Sci., Edinburgh Univ., UK
Abstract :
We present a sequent calculus for proving that processes in a process algebra satisfy assertions in Hennessy-Milner logic. The main novelty lies in the use of the operational semantics to derive introduction rules (on the left and right of sequents) for the different operators of the process calculus. This gives a generic proof system applicable to any process algebra with an operational semantics specified in the GSOS format. We identify the desirable property of compositionality with cut-elimination, and we prove that this holds for a class of sequents. Further, we show that the proof system enjoys good completeness and ω-completeness properties relative to its intended model
Keywords :
computability; decidability; formal logic; process algebra; Hennessy-Milner logic; arbitrary GSOS; completeness; compositionality; cut-elimination; generic proof system; operational semantics; process algebra; process calculus; satisfiability; sequent calculus; Algebra; Calculus; Computer science; Logic functions;
Conference_Titel :
Logic in Computer Science, 1995. LICS '95. Proceedings., Tenth Annual IEEE Symposium on
Conference_Location :
San Diego, CA
Print_ISBN :
0-8186-7050-9
DOI :
10.1109/LICS.1995.523276
