Search results for "descriptive complexity"

showing 10 items of 11 documents

Descriptive Complexity, Lower Bounds and Linear Time

1999

This paper surveys two related lines of research: Logical characterizations of (non-deterministic) linear time complexity classes, and non-expressibility results concerning sublogics of existential second-order logic. Starting from Fagin’s fundamental work there has been steady progress in both fields with the effect that the weakest logics that are used in characterizations of linear time complexity classes are closely related to the strongest logics for which inexpressibility proofs for concrete problems have been obtained. The paper sketches these developments and highlights their connections as well as the obstacles that prevent us from closing the remaining gap between both kinds of lo…

Computational complexity theoryComputer scienceDescriptive complexity theoryMathematical proofCombinatoricsTuring machinesymbols.namesakeTheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGESRegular languageCalculusComplexity classsymbolsUnary functionTime complexity

researchProduct

Algorithmic Information Theory and Computational Complexity

2013

We present examples where theorems on complexity of computation are proved using methods in algorithmic information theory. The first example is a non-effective construction of a language for which the size of any deterministic finite automaton exceeds the size of a probabilistic finite automaton with a bounded error exponentially. The second example refers to frequency computation. Frequency computation was introduced by Rose and McNaughton in early sixties and developed by Trakhtenbrot, Kinber, Degtev, Wechsung, Hinrichs and others. A transducer is a finite-state automaton with an input and an output. We consider the possibilities of probabilistic and frequency transducers and prove sever…

Discrete mathematicsAverage-case complexityAlgorithmic information theoryTheoryofComputation_COMPUTATIONBYABSTRACTDEVICESKolmogorov complexityDescriptive complexity theoryComputational physicsStructural complexity theoryTheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGESDeterministic finite automatonAsymptotic computational complexityComputer Science::Formal Languages and Automata TheoryComputational number theoryMathematics

researchProduct

Transition Function Complexity of Finite Automata

2011

State complexity of finite automata in some cases gives the same complexity value for automata which intuitively seem to have completely different complexities. In this paper we consider a new measure of descriptional complexity of finite automata -- BC-complexity. Comparison of it with the state complexity is carried out here as well as some interesting minimization properties are discussed. It is shown that minimization of the number of states can lead to a superpolynomial increase of BC-complexity.

Discrete mathematicsAverage-case complexityTheoryofComputation_COMPUTATIONBYABSTRACTDEVICESFinite-state machineDFA minimizationContinuous spatial automatonAutomata theoryQuantum finite automataDescriptive complexity theoryω-automatonComputer Science::Formal Languages and Automata TheoryMathematics

researchProduct

Two-Variable First-Order Logic with Equivalence Closure

2012

We consider the satisfiability and finite satisfiability problems for extensions of the two-variable fragment of first-order logic in which an equivalence closure operator can be applied to a fixed number of binary predicates. We show that the satisfiability problem for two-variable, first-order logic with equivalence closure applied to two binary predicates is in 2-NExpTime, and we obtain a matching lower bound by showing that the satisfiability problem for two-variable first-order logic in the presence of two equivalence relations is 2-NExpTime-hard. The logics in question lack the finite model property; however, we show that the same complexity bounds hold for the corresponding finite sa…

Discrete mathematicsGeneral Computer ScienceLogical equivalenceFinite model propertyGeneral MathematicsDescriptive complexity theorySatisfiabilityDecidabilityFirst-order logicCombinatoricsTheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGESComputer Science::Logic in Computer ScienceMaximum satisfiability problemClosure operatorEquivalence relationBoolean satisfiability problemMathematics2012 27th Annual IEEE Symposium on Logic in Computer Science

researchProduct

The Descriptive Complexity Approach to LOGCFL

1999

Building upon the known generalized-quantifier-based firstorder characterization of LOGCFL, we lay the groundwork for a deeper investigation. Specifically, we examine subclasses of LOGCFL arising from varying the arity and nesting of groupoidal quantifiers. Our work extends the elaborate theory relating monoidal quantifiers to NC1 and its subclasses. In the absence of the BIT predicate, we resolve the main issues: we show in particular that no single outermost unary groupoidal quantifier with FO can capture all the context-free languages, and we obtain the surprising result that a variant of Greibach's "hardest contextfree language" is LOGCFL-complete under quantifier-free BIT-free interpre…

Discrete mathematicsUnary operationComputer science0102 computer and information sciences02 engineering and technologyComputer Science::Computational ComplexityArityDescriptive complexity theory01 natural sciencesNondeterministic algorithm010201 computation theory & mathematicsDeterministic automatonBIT predicate0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingNondeterministic finite automatonLOGCFL

researchProduct

The Descriptive Complexity Approach to LOGCFL

1998

Building upon the known generalized-quantifier-based first-order characterization of LOGCFL, we lay the groundwork for a deeper investigation. Specifically, we examine subclasses of LOGCFL arising from varying the arity and nesting of groupoidal quantifiers. Our work extends the elaborate theory relating monoidal quantifiers to NC1 and its subclasses. In the absence of the BIT predicate, we resolve the main issues: we show in particular that no single outermost unary groupoidal quantifier with FO can capture all the context-free languages, and we obtain the surprising result that a variant of Greibach's ``hardest context-free language'' is LOGCFL-complete under quantifier-free BIT-free proj…

FOS: Computer and information sciencesFinite model theoryUnary operationComputer Networks and Communicationsautomata and formal languages0102 computer and information sciencesComputational Complexity (cs.CC)Computer Science::Computational ComplexityArityDescriptive complexity theory01 natural sciencesTheoretical Computer ScienceComputer Science::Logic in Computer ScienceNondeterministic finite automaton0101 mathematicsLOGCFLMathematicsDiscrete mathematicscomputational complexityApplied Mathematics010102 general mathematicsdescriptive complexityNondeterministic algorithmComputer Science - Computational Complexityfinite model theoryQuantifier (logic)Computational Theory and Mathematics010201 computation theory & mathematicsF.1.3Journal of Computer and System Sciences

researchProduct

Complexity of operations on cofinite languages

2010

International audience; We study the worst case complexity of regular operation on cofinite languages (i.e., languages whose complement is finite) and provide algorithms to compute efficiently the resulting minimal automata.

Nested wordTheoretical computer scienceSettore INF/01 - Informaticaautomata[INFO.INFO-DS]Computer Science [cs]/Data Structures and Algorithms [cs.DS]regular operationReDoSComputer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing)[INFO.INFO-DS] Computer Science [cs]/Data Structures and Algorithms [cs.DS]0102 computer and information sciences02 engineering and technologyDescriptive complexity theorystate complexity01 natural sciencesComplement (complexity)Deterministic finite automaton010201 computation theory & mathematicsTheory of computation0202 electrical engineering electronic engineering information engineeringComputer Science::Programming LanguagesQuantum finite automata020201 artificial intelligence & image processingNondeterministic finite automatoncofinite languageMathematics

researchProduct

Effects of Kolmogorov complexity present in inductive inference as well

1997

For all complexity measures in Kolmogorov complexity the effect discovered by P. Martin-Lof holds. For every infinite binary sequence there is a wide gap between the supremum and the infimum of the complexity of initial fragments of the sequence. It is assumed that that this inevitable gap is characteristic of Kolmogorov complexity, and it is caused by the highly abstract nature of the unrestricted Kolmogorov complexity.

PHAverage-case complexityDiscrete mathematicsStructural complexity theoryKolmogorov complexityKolmogorov structure functionChain rule for Kolmogorov complexityDescriptive complexity theoryMathematicsQuantum complexity theory

researchProduct

Inductive inference of recursive functions: Complexity bounds

2005

This survey includes principal results on complexity of inductive inference for recursively enumerable classes of total recursive functions. Inductive inference is a process to find an algorithm from sample computations. In the case when the given class of functions is recursively enumerable it is easy to define a natural complexity measure for the inductive inference, namely, the worst-case mindchange number for the first n functions in the given class. Surely, the complexity depends not only on the class, but also on the numbering, i.e. which function is the first, which one is the second, etc. It turns out that, if the result of inference is Goedel number, then complexity of inference ma…

PHAverage-case complexityDiscrete mathematicsStructural complexity theoryTheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGESRecursively enumerable languageWorst-case complexityInferenceDescriptive complexity theoryNumberingMathematics

researchProduct

Non-intersecting Complexity

2006

A new complexity measure for Boolean functions is introduced in this article. It has a link to the query algorithms: it stands between both polynomial degree and non-deterministic complexity on one hand and still is a lower bound for deterministic complexity. Some inequalities and counterexamples are presented and usage in symmetrisation polynomials is considered.

PHCombinatoricsAverage-case complexityStructural complexity theoryAsymptotic computational complexityWorst-case complexityComplexity classDescriptive complexity theoryQuantum complexity theoryMathematics

researchProduct