On the Decomposition of Abstract Dialectical Frameworks and the Complexity of Naive-based Semantics

Abstract dialectical frameworks (ADFs) are a recently introduced powerful generalization of Dung’s popular abstract argumentation frameworks (AFs). Inspired by similar work for AFs, we introduce a decomposition scheme for ADFs, which proceeds along the ADF’s strongly connected components. We find that, for several semantics, the decompositionbased version coincides with the original semantics, whereas for others, it gives rise to a new semantics. These new semantics allow us to deal with pertinent problems such as odd-length negative cycles in a more general setting, that for instance also encompasses logic programs. We perform an exhaustive analysis of the computational complexity of these new, so-called naive-based semantics. The results are quite interesting, for some of them involve little-known classes of the so-called Boolean hierarchy (another hierarchy in between classes of the polynomial hierarchy). Furthermore, in credulous and sceptical entailment, the complexity can be different depending on whether we check for truth or falsity of a specific statement.

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Modularity Aspects of Disjunctive Stable Models

Journal of Artificial Intelligence Research ◽

10.1613/jair.2810 ◽

2009 ◽

Vol 35 ◽

pp. 813-857 ◽

Cited By ~ 35

Author(s):

T. Janhunen ◽

E. Oikarinen ◽

H. Tompits ◽

S. Woltran

Keyword(s):

Programming Languages ◽

Connected Components ◽

Stable Model ◽

Logic Programs ◽

Strongly Connected Components ◽

Verification Method ◽

Strongly Connected ◽

Disjunctive Logic Programs ◽

Mutual Comparison ◽

Output Interface

Practically all programming languages allow the programmer to split a program into several modules which brings along several advantages in software development. In this paper, we are interested in the area of answer-set programming where fully declarative and nonmonotonic languages are applied. In this context, obtaining a modular structure for programs is by no means straightforward since the output of an entire program cannot in general be composed from the output of its components. To better understand the effects of disjunctive information on modularity we restrict the scope of analysis to the case of disjunctive logic programs (DLPs) subject to stable-model semantics. We define the notion of a DLP-function, where a well-defined input/output interface is provided, and establish a novel module theorem which indicates the compositionality of stable-model semantics for DLP-functions. The module theorem extends the well-known splitting-set theorem and enables the decomposition of DLP-functions given their strongly connected components based on positive dependencies induced by rules. In this setting, it is also possible to split shared disjunctive rules among components using a generalized shifting technique. The concept of modular equivalence is introduced for the mutual comparison of DLP-functions using a generalization of a translation-based verification method.

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A Comparative Study of Algorithm for Computing Strongly Connected Components

2017 IEEE 15th Intl Conf on Dependable, Autonomic and Secure Computing, 15th Intl Conf on Pervasive Intelligence and Computing, 3rd Intl Conf on Big Data Intelligence and Computing and Cyber Science and Technology Congress(DASC/PiCom/DataCom/CyberSciTech) ◽

10.1109/dasc-picom-datacom-cyberscitec.2017.85 ◽

2017 ◽

Cited By ~ 2

Author(s):

D. Frank Hsu ◽

Xiaojie Lan ◽

Gabriel Miller ◽

David Baird

Keyword(s):

Comparative Study ◽

Connected Components ◽

Strongly Connected Components ◽

Strongly Connected

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ENHANCING ADEQUACY OF GRADING STUDY PROJECTS ON THE BASE OF PARAMETRIC RELAXATION OF PAIRWISE COMPARISONS

Journal of Automation and Information sciences ◽

10.34229/0572-2691-2021-1-11 ◽

2021 ◽

Vol 1 ◽

pp. 122-133

Author(s):

Alexey V. Oletsky ◽

◽

Mikhail F. Makhno ◽

◽

Keyword(s):

Center Of Mass ◽

Estimation Algorithm ◽

Relaxation Parameter ◽

Connected Components ◽

Pairwise Comparisons ◽

Strongly Connected Components ◽

Standard Scale ◽

Relaxation Parameters ◽

Strongly Connected ◽

The One

A problem of automated assessing of students’ study projects is regarded. A heuristic algorithm based on fuzzy estimating of projects and on pairwise comparisons among them is proposed. For improving adequacy and naturalness of grades, an approach based on introducing a parameter named relaxation parameter was suggested in the paper. This enables to reduce the spread between maximum and minimum values of projects in comparison with the one in the standard scale suggested by T. Saati. Reasonable values of this parameter were selected experimentally. For estimating the best alternative, a center of mass of a fuzzy max-min composition should be calculated. An estimation algorithm for a case of non-transitive preferences based on getting strongly connected components and on pairwise comparisons between them is also suggested. In this case, relaxation parameters should be chosen separately for each subtask. So the combined technique of evaluating alternatives proposed in the paper depends of the following parameters: relaxation parameters for pairwise comparisons matrices within each strongly connected components; relaxation parameter for pairwise comparisons matrices among strongly connected components; membership function for describing the best alternative.

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