Theory and Algorithms for Shapelet-Based Multiple-Instance Learning

We propose a new formulation of multiple-instance learning (MIL), in which a unit of data consists of a set of instances called a bag. The goal is to find a good classifier of bags based on the similarity with a "shapelet" (or pattern), where the similarity of a bag with a shapelet is the...

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Vydáno v:Neural computation Ročník 32; číslo 8; s. 1580
Hlavní autoři: Suehiro, Daiki, Hatano, Kohei, Takimoto, Eiji, Yamamoto, Shuji, Bannai, Kenichi, Takeda, Akiko
Médium: Journal Article
Jazyk:angličtina
Vydáno: United States 01.08.2020
ISSN:1530-888X, 1530-888X
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Shrnutí:We propose a new formulation of multiple-instance learning (MIL), in which a unit of data consists of a set of instances called a bag. The goal is to find a good classifier of bags based on the similarity with a "shapelet" (or pattern), where the similarity of a bag with a shapelet is the maximum similarity of instances in the bag. In previous work, some of the training instances have been chosen as shapelets with no theoretical justification. In our formulation, we use all possible, and thus infinitely many, shapelets, resulting in a richer class of classifiers. We show that the formulation is tractable, that is, it can be reduced through linear programming boosting (LPBoost) to difference of convex (DC) programs of finite (actually polynomial) size. Our theoretical result also gives justification to the heuristics of some previous work. The time complexity of the proposed algorithm highly depends on the size of the set of all instances in the training sample. To apply to the data containing a large number of instances, we also propose a heuristic option of the algorithm without the loss of the theoretical guarantee. Our empirical study demonstrates that our algorithm uniformly works for shapelet learning tasks on time-series classification and various MIL tasks with comparable accuracy to the existing methods. Moreover, we show that the proposed heuristics allow us to achieve the result in reasonable computational time.
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ISSN:1530-888X
1530-888X
DOI:10.1162/neco_a_01297