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RESEARCH PRODUCT

Combining finite learning automata with GSAT for the satisfiability problem

Ole-christopher GranmoNoureddine Bouhmala

subject

Theoretical computer scienceLearning automataComputer scienceRandom walkSatisfiabilitySet (abstract data type)Artificial IntelligenceControl and Systems EngineeringMaximum satisfiability problemBenchmark (computing)Combinatorial optimizationBoolean expressionElectrical and Electronic EngineeringBoolean satisfiability problemAlgorithm

description

A large number of problems that occur in knowledge-representation, learning, very large scale integration technology (VLSI-design), and other areas of artificial intelligence, are essentially satisfiability problems. The satisfiability problem refers to the task of finding a satisfying assignment that makes a Boolean expression evaluate to True. The growing need for more efficient and scalable algorithms has led to the development of a large number of SAT solvers. This paper reports the first approach that combines finite learning automata with the greedy satisfiability algorithm (GSAT). In brief, we introduce a new algorithm that integrates finite learning automata and traditional GSAT used with random walk. Furthermore, we present a detailed comparative analysis of the new algorithm's performance, using a benchmark set containing randomized and structured problems from various domains.

yearjournalcountryeditionlanguage
2010-08-01Engineering Applications of Artificial Intelligence
https://doi.org/10.1016/j.engappai.2010.01.009