The Influence of Dimensions on the Complexity of Computing Decision Trees
Publication date
2023-02-07
Authors
Kobourov, Stephen G.
Löffler, Maarten
Montecchiani, Fabrizio
Pilipczuk, Marcin
Rutter, Ignaz
Seidel, Raimund
Sorge, Manuel
Wulms, Jules
Editors
Williams, Brian
Chen, Yiling
Neville, Jennifer
Advisors
Supervisors
Document Type
Part of book
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taverne
Abstract
A decision tree recursively splits a feature space Rd and then assigns class labels based on the resulting partition. Decision trees have been part of the basic machine-learning toolkit for decades. A large body of work considers heuristic algorithms that compute a decision tree from training data, usually aiming to minimize in particular the size of the resulting tree. In contrast, little is known about the complexity of the underlying computational problem of computing a minimum-size tree for the given training data. We study this problem with respect to the number d of dimensions of the feature space Rd, which contains n training examples. We show that it can be solved in O(n2d+1) time, but under reasonable complexity-theoretic assumptions it is not possible to achieve f(d) · no(d/ log d) running time. The problem is solvable in (dR)O(dR) · n1+o(1) time, if there are exactly two classes and R is an upper bound on the number of tree leaves labeled with the first class.
Keywords
CG, AI, DS, FPT, Taverne
Citation
Kobourov, S G, Löffler, M, Montecchiani, F, Pilipczuk, M, Rutter, I, Seidel, R, Sorge, M & Wulms, J 2023, The Influence of Dimensions on the Complexity of Computing Decision Trees. in B Williams, Y Chen & J Neville (eds), AAAI'23/IAAI'23/EAAI'23: Proceedings of the Thirty-Seventh AAAI Conference on Artificial Intelligence and Thirty-Fifth Conference on Innovative Applications of Artificial Intelligence and Thirteenth Symposium on Educational Advances in Artificial Intelligence. AAAI Press, pp. 8343-8350. https://doi.org/10.1609/aaai.v37i7.26006