6533b7d1fe1ef96bd125cef6

RESEARCH PRODUCT

All congruences below stability-preserving fair testing or CFFD

Antti Valmari

subject

Pure mathematicsComputer Networks and CommunicationsMathematics::Number TheoryStability (learning theory)Contrast (statistics)020207 software engineering0102 computer and information sciences02 engineering and technologyCongruence relation01 natural sciencesSmall setSet (abstract data type)Congruence (geometry)010201 computation theory & mathematicsrinnakkaiskäsittelyTheory of computation0202 electrical engineering electronic engineering information engineeringEquivalence (measure theory)SoftwaretietojenkäsittelyInformation SystemsMathematics

description

AbstractIn process algebras, a congruence is an equivalence that remains valid when any subsystem is replaced by an equivalent one. Whether or not an equivalence is a congruence depends on the set of operators used in building systems from subsystems. Numerous congruences have been found, differing from each other in fine details, major ideas, or both, and none of them is good for all situations. The world of congruences seems thus chaotic, which is unpleasant, because the notion of congruence is at the heart of process algebras. This study continues attempts to clarify the big picture by proving that in certain sub-areas, there are no other congruences than those that are already known or found in the study. First, the region below stability-preserving fair testing equivalence is surveyed using an exceptionally small set of operators. The region contains few congruences, which is in sharp contrast with an earlier result on the region below Chaos-Free Failures Divergences (CFFD) equivalence, which contains 40 well-known and not well-known congruences. Second, steps are taken towards a general theory of dealing with initial stability, which is a small but popular detail. This theory is applied to the region below CFFD.

yearjournalcountryeditionlanguage
2020-05-06
http://urn.fi/URN:NBN:fi:jyu-202103151972