Sparse languages play an important role in classical structural complexity theory. In this paper we introduce a natural definition of sparse problems for parameterized complexity theory. We prove an analog of Mahaney's theorem: there is no sparse parameterized problem which is hard for the tth level of the W hierarchy, unless the W hierarchy itself collapses up to level t. The main result is proved for the most general form of parametric many:1 reducibility, where the parameter functions are not assumed to be recursive. This provides one of the few instances in parameterized complexity theory of a full analog of a major classical theorem. The proof involves not only the standard technique of left sets, but also substantial circuit combinato...
ABSTRACT. Sets which are efficiently reducible (in Karp's sense) to arbitrarily complex sets ar...
AbstractA parameterized problem 〈L, k〉 belongs to W[t] if there exists k′ computed from k such that ...
We introduce a framework to study the parallel complexity of parameterized problems, and we propose ...
Sparse languages play an important role in classical structural complexity theory. In this paper we ...
Complexity can have many forms, yet there is no single mathematical definition of complexity that th...
We extend the reach of fixed-parameter analysis by introducing classes of parameterized sets defined...
Asking which sets are fixed-parameter tractable for a given parameterization constitutes much of the...
(eng) An analog of Mahaney's Theorem was shown, stating that there is no sparse NP-complete problem ...
We give machine characterizations of most parameterized complexity classes, in particular, of W[P], ...
textabstractWe introduce some classical complexity-theoretic techniques to Parameterized Complexity....
We study the theory and techniques developed in the research of parameterized intractability, emphas...
As remarked in Cook (“Towards a Complexity Theory of Synchronous Parallel Computation,≓ Univ. of Tor...
For a set L that is polynomial time reducible (in short, = sub T super P-reducible) to some sparse s...
Many computational problems in biology involve par-ameters/or which a small range of values cover im...
We propose a proof-theoretic approach for gaining evidence that certain parameterized problems are n...
ABSTRACT. Sets which are efficiently reducible (in Karp's sense) to arbitrarily complex sets ar...
AbstractA parameterized problem 〈L, k〉 belongs to W[t] if there exists k′ computed from k such that ...
We introduce a framework to study the parallel complexity of parameterized problems, and we propose ...
Sparse languages play an important role in classical structural complexity theory. In this paper we ...
Complexity can have many forms, yet there is no single mathematical definition of complexity that th...
We extend the reach of fixed-parameter analysis by introducing classes of parameterized sets defined...
Asking which sets are fixed-parameter tractable for a given parameterization constitutes much of the...
(eng) An analog of Mahaney's Theorem was shown, stating that there is no sparse NP-complete problem ...
We give machine characterizations of most parameterized complexity classes, in particular, of W[P], ...
textabstractWe introduce some classical complexity-theoretic techniques to Parameterized Complexity....
We study the theory and techniques developed in the research of parameterized intractability, emphas...
As remarked in Cook (“Towards a Complexity Theory of Synchronous Parallel Computation,≓ Univ. of Tor...
For a set L that is polynomial time reducible (in short, = sub T super P-reducible) to some sparse s...
Many computational problems in biology involve par-ameters/or which a small range of values cover im...
We propose a proof-theoretic approach for gaining evidence that certain parameterized problems are n...
ABSTRACT. Sets which are efficiently reducible (in Karp's sense) to arbitrarily complex sets ar...
AbstractA parameterized problem 〈L, k〉 belongs to W[t] if there exists k′ computed from k such that ...
We introduce a framework to study the parallel complexity of parameterized problems, and we propose ...