1. Evolving pathway activation from cancer gene expression data using nature-inspired ensemble optimization.
- Author
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Wang, Xubin, Wang, Yunhe, Ma, Zhiqiang, Wong, Ka-Chun, and Li, Xiangtao
- Subjects
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CANCER genes , *GENE expression , *FEATURE selection , *MACHINE learning , *BIOLOGICALLY inspired computing , *TASK analysis , *ANT algorithms - Abstract
Class-imbalanced biological datasets pose significant challenges in machine learning and data analysis tasks. Prior methods to handle imbalance rely on data oversampling, which increases computational costs and overfitting. While feature selection and ensemble learning are promising techniques, current applications in imbalanced contexts are limited. To address these challenges, we present a novel framework called Hybrid Sampling Nature-Inspired Optimization Ensemble (HSNOE) to enhance the identification of hidden responders in imbalanced biological datasets. Our contributions are three-fold: 1) A hybrid undersampling and oversampling technique to mitigate class-imbalance; 2) Integrate an ant colony optimization-based feature selection that identifies informative feature subsets; 3) An ensemble classifier integrating diverse models trained on optimized features to improve performance. The experiments conducted on the five biological datasets demonstrate that HSNOE exhibits more stable comprehensive performance across six evaluation metrics compared to ten benchmark methods. We also conducted a biological analysis specifically on the Pan-cancer dataset. Moreover, the HSNOE method has been made publicly available on GitHub. 1 1 https://github.com/wangxb96/HSNOE. • HSNOE can mitigate the effects of data skew when training the model. • A nature-inspired feature selection method is used to identify informative features. • HSNOE combines a nature-inspired optimization method to realize ensemble. • A case study was conducted to show the generalization capabilities of HSNOE. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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