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arxiv: 2503.07665 · v1 · pith:IL5MCOIN · submitted 2025-03-08 · cs.CC · cs.DM· cs.DS· cs.LG· stat.ML

The Computational Complexity of Positive Non-Clashing Teaching in Graphs

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classification cs.CC cs.DMcs.DScs.LGstat.ML
keywords non-clashingpositiveteachingwhencomplexitydimensionparameterizedproblem
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We study the classical and parameterized complexity of computing the positive non-clashing teaching dimension of a set of concepts, that is, the smallest number of examples per concept required to successfully teach an intelligent learner under the considered, previously established model. For any class of concepts, it is known that this problem can be effortlessly transferred to the setting of balls in a graph G. We establish (1) the NP-hardness of the problem even when restricted to instances with positive non-clashing teaching dimension k=2 and where all balls in the graph are present, (2) near-tight running time upper and lower bounds for the problem on general graphs, (3) fixed-parameter tractability when parameterized by the vertex integrity of G, and (4) a lower bound excluding fixed-parameter tractability when parameterized by the feedback vertex number and pathwidth of G, even when combined with k. Our results provide a nearly complete understanding of the complexity landscape of computing the positive non-clashing teaching dimension and answer open questions from the literature.

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