前向校验算法及其导数的实证研究

Proceedings Eighth IEEE International Conference on Tools with Artificial Intelligence Pub Date : 1996-11-16 DOI:10.1109/TAI.1996.560463

Michael J. Dent, Robert E. Mercer

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引用次数: 1

摘要

前向检查(FC)是解决约束满足问题最常用的算法之一。提出了FC的一种惰性变体，称为最小前向检查(MFC)。先前的实证结果表明，当不使用失败第一(FF)启发式时，MFC实质上优于FC。这些结果还表明，当使用FF启发式时，MFC的惰性会产生实质性的负面影响。为了克服这个问题，提出了对MFC算法的两种扩展，一种新的启发式方法，称为额外修剪(EXP)，以及增加冲突导向回跳(CBJ)。通过对大型硬随机生成问题测试集的实证研究表明，在MFC-FF (MFC-CBJ-EXP-FF)中同时加入EXP和CBJ是最好的前向检查算法。讨论了各种算法之间的理论关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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An empirical investigation of the forward checking algorithm and its derivatives

Forward checking (FC) is one of the most popular algorithms used to solve constraint satisfaction problems. A lazy variant of FC has been proposed called minimal forward checking (MFC). Previous empirical results suggest that MFC substantially outperforms FC when the fail first (FF) heuristic is not used. These results also suggest that the laziness of MFC can have substantial negative effects when the FF heuristic is used. To overcome this problem two extensions to the MFC algorithm are proposed, a new heuristic, called extra pruning (EXP), and the addition of conflict-directed backjumping (CBJ). An empirical investigation on a large test suite of hard randomly generated problems suggests that adding both EXP and CBJ to MFC-FF (MFC-CBJ-EXP-FF) is the best forward checking algorithm. Some theoretical relationships among the various algorithms are discussed.

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Proceedings Eighth IEEE International Conference on Tools with Artificial Intelligence

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