Regularized fisher linear discriminant through two threshold variation strategies for imbalanced problems

Autor: Yujin Zhu, Daqi Gao, Chenjie Cao, Zhe Wang
Rok vydání: 2018
Předmět:
Zdroj: Knowledge-Based Systems. 150:57-73
ISSN: 0950-7051
DOI: 10.1016/j.knosys.2018.02.035
Popis: Fisher Linear Discriminant (FLD) has been widely applied to classification tasks due to its simple structure, analytical optimization, and useful criterion. However, when dealing with imbalanced datasets, even though the weight vector of FLD could be trained correctly to preserve the global distribution information of samples, the threshold of FLD might be seriously misled by the extreme proportion of classes. In order to modify the threshold and preserve the weight vector at the same time so as to improve FLD in imbalanced cases, this paper first regularizes the original FLD in a way inspired by the locality preserving projection, and then utilizes two strategies to optimize the threshold: the multi-thresholds selection strategy trains several FLDs with different empirically-defined thresholds, and then selects the optimal threshold out; the threshold-eliminated strategy generates two hyperplanes parallel to the original one built by FLD, and then utilizes a heuristic similarity metric for prediction. It is seen that the former seeks new threshold instead of the old one, while the latter ignores the original threshold. After introducing both strategies into the regularized FLD, two new classifiers are proposed in this paper and abbreviated as RFLD-S1 and RFLD-S2, respectively. Subsequently, the comprehensive comparison experiments on forty-one datasets among nine typical classifiers validate the effectiveness of the proposed methods. Especially, RFLD-S1 performs better than RFLD-S2 and achieves the best on most datasets.
Databáze: OpenAIRE
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