Package org.tweetyproject.arg.dung.reasoner

package org.tweetyproject.arg.dung.reasoner

Related Packages

Package	Description
org.tweetyproject.arg.dung
org.tweetyproject.arg.dung.reasoner.serialisable

Class	Description
AbstractAcceptabilityReasoner	Ancestor class for reasoners that are tailored towards computing the set {a | a is credulously/skeptically accepted wrt.
AbstractClaimBasedReasoner	Ancestor class for all claim based reasoner.
AbstractDungReasoner	Ancestor class for all AAF reasoners.
AbstractExtensionReasoner	Ancestor class for all extension-based reasoners.
AbstractSatExtensionReasoner	Uses a provided SAT solver to solve reasoning problems in AAFs.
EeeAcceptabilityReasoner	Implements the EEE approach ("exhaustively enumerate extensions") to determine the set of acceptable arguments of an AF, cf.
ExtensionRankingReasoner	Reasoner using ranking semantics.
FudgeAcceptabilityReasoner	Implements the Fudge approach to determine the set of acceptable arguments of an AF wrt.
IaqAcceptabilityReasoner	Implements the IAQ approach ("iterative acceptability queries") to determine the set of acceptable arguments of an AF, cf.
IncompleteReasoner	incomlete argumentation framework class
ProboI23Reasoner	This reasoner makes use of an external executable for solving reasoning problems in abstract argumentation.
ProboProblem	This enum contains all supported problems for probo-based reasoner.
ProboProblem.SubProblem	The actual computational sub-problem.
ProboReasoner	This reasoner makes use of an external executable for solving reasoning problems in abstract argumentation.
QualifiedReasoner	Reasoner for qualified sigma-semantics.
SatCompleteReasoner	Uses a SAT solver to determine complete extensions.
SatStableReasoner	Uses a SAT solver to determine stable extensions.
SccCF2Reasoner	Reasoner for CF2 extensions using scc-recursiveness.
SCF2Reasoner	Reasoner for SCF2 extensions using scc-recursiveness.
SCOOCNaiveReasoner	reasoner for SCOOC-naive semantics.
SeeAcceptabilityReasoner	Implements the SEE approach ("selective extension enumeration") to determine the set of acceptable arguments of an AF wrt.
SeemAcceptabilityReasoner	Implements the SEEM approach ("selective extension enumeration with MaxSAT") to determine the set of credulously acceptable arguments of an AF wrt.
SemiQualifiedReasoner	Reasoner for semi-qualified sigma-semantics.
SimpleAdmissibleReasoner	This reasoner for Dung theories performs inference on the admissible extensions.
SimpleClInheritedReasoner	calculates claim based inherited extensions
SimpleClNaiveReasoner	calculates claim based naive extensions
SimpleClPreferredReaonser	calculates claim based preferred reasoner
SimpleClSemistableReasoner	a simple claimbased semi stable reasoner
SimpleClStableReasoner	a claim based stable reaonser
SimpleClStagedReasoner	calculates claim based staged extensions
SimpleCompleteReasoner	This reasoner for Dung theories performs inference on the complete extensions.
SimpleConflictFreeReasoner	This reasoner for Dung theories performs inference on the conflict-free extensions.
SimpleEagerReasoner	simple reasoner for eager semantics
SimpleGroundedReasoner	This reasoner for Dung theories performs inference on the grounded extension.
SimpleIdealReasoner	This reasoner for Dung theories performs inference on the ideal extension.
SimpleInitialReasoner	Basic Implementation of a reasoner for initial sets A set of arguments S is considered initial iff it is non-empty and minimal among the non-empty admissible sets see: Yuming Xu and Claudette Cayrol.
SimpleNaiveReasoner	Reasoner for naive extensions.
SimplePreferredReasoner	This reasoner for Dung theories performs inference on the preferred extensions.
SimpleResolutionBasedReasoner	This reasoner for Dung theories performs inference on the resolution-based family of semantics.
SimpleSccCompleteReasoner	This reasoner for Dung theories performs inference on the complete extensions.
SimpleSccRecursiveReasoner	Universal scc-recursive reasoner initialize with any reasoner for a scc-recursive semantics
SimpleSemiStableReasoner	This reasoner calculates claim based semi stable extensions
SimpleStableReasoner	This reasoner for Dung theories performs inference on the stable extensions.
SimpleStageReasoner	This reasoner for Dung theories performs inference on the stage extensions.
SolidAdmissibleReasoner	Reasoner for solid admissibility a set of arguments E solid-defends an argument a, iff for all attackers b of a it holds that all arguments c which attack b are in E see: Liu, X., and Chen, W.
Stage2Reasoner	Reasoner for Stage2 semantics using scc-recursiveness definition see: Dvorak, Gaggl: Incorporating Stage Semantics in the SCC-recursive Schema for Argumentation Semantics 2012
StratifiedLabelingReasoner	This class implements a stratified labeling reasoner.
StronglyAdmissibleReasoner	Reasoner for strong admissibility A set of arguments E is strongly admissible iff all every argument A in E is defended by some argument B in E \ {A} i.e.
StronglyUndisputedReasoner	Implements the strongly undisputed semantics, as proposed in [Thimm.
UndisputedReasoner	Implements the undisputed semantics, as proposed in [Thimm.
VacuousReductReasoner	Implements a general vacuous reduct reasoner, as proposed in [Thimm.
WeaklyAdmissibleReasoner	Reasoner for weak admissibility the reasoner reduces the number of sets we have to check by computing candidate sets instead of checking all sets.
WeaklyCompleteReasoner	Reasoner for weakly complete semantics as described in: see: Baumann, Brewka, Ulbricht: Revisiting the foundations of abstract argumentation-semantics based on weak admissibility and weak defense.
WeaklyGroundedReasoner	Reasoner for weakly grounded semantics a set of arguments E is w-grounded iff it is w-complete and minimal Note: unlike the grounded extension which is unique, there can be more than one w-grounded extension see: Baumann, Brewka, Ulbricht: Revisiting the foundations of abstract argumentation-semantics based on weak admissibility and weak defense.
WeaklyPreferredReasoner	Reasoner for weakly preferred semantics see: Baumann, Brewka, Ulbricht: Revisiting the foundations of abstract argumentation-semantics based on weak admissibility and weak defense.