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ORIGINAL ARTICLE

An intelligent feature selection approach based on moth flame optimization for medical diagnosis Ruba Abu Khurmaa1 • Ibrahim Aljarah1

•

Ahmad Sharieh1

Received: 27 November 2019 / Accepted: 27 October 2020 Ó Springer-Verlag London Ltd., part of Springer Nature 2020

Abstract In this work, an enhanced moth flame optimization (MFO) algorithm is proposed as a search strategy within a wrapper feature selection (FS) framework. It aims mainly to improve the classification tasks in medical applications. FS is an NPhard problem because the run time of its procedure grows exponentially. The persistent necessity for a powerful FS system and the promising results of swarming behavior in various optimization scenarios motivated our attempts to develop a new FS approach. This paper uses a recently developed methodology inspired by the moth movement style in searching for a near-optimal feature subset for reliable disease diagnosis. The proposed modification strategy is based on two stages of enhancement. In the first stage, eight binary variants are produced using eight transfer functions. In the second stage, the Levy flight operator is integrated into the structure of MFO in combination with transfer functions. The main target is to increase the diversity of the algorithm and support the exploration of the search space. Twenty-three medical data sets downloaded from UCI, Keel, Kaggle data repositories are used to validate the proposed approaches. It has been demonstrated that the proposed approach significantly outperforms other well-known wrapper approaches across 83% of data sets. Furthermore, the proposed approach outperforms other methods in the literature across 75% of the data sets. The comparisons with filter-based approach reveal superior performance across 70% of the data sets. This work also conducts an extensive investigation of the parameters and studies the effects of different settings on the performance of the FS process. The empirical results and various comparisons reveal a remarkable effect of the Levy flight operator and transfer functions on the performance of MFO. This can be achieved through improving the diversity, achieving a greater exploration/exploitation trade-off, and enhancing the convergence trends of the optimizer. Keywords Feature selection  Wrapper  Classification  Swarm intelligence  Moth flame optimization  Transfer function  Levy flight

1 Introduction There is a need to develop an approach for optimizing the feature selection (FS) process in medical applications for improving disease diagnosis. This work proposes a new wrapper FS approach based on a meta-heuristic algorithm & Ibrahim Aljarah [email protected] Ruba Abu Khurmaa [email protected] Ahmad Sharieh [email protected] 1

King Abdullah II School for Information Technology, The University of Jordan, Amman, Jordan

inspired by moth flame optimization. The main target is generating the near-optimal feature subset that can improve disease diagnosis in medi

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