期刊论文详细信息
Advances in Physics: X
Synergy of physics-based reasoning and machine learning in biomedical applications: towards unlimited deep learning with limited data
Olga Senyukova1  Valeriy Gavrishchaka2  Mark Koepke2 
[1] Lomonosov Moscow State University;West Virginia University;
关键词: nonlinear dynamics;    boosting;    deep learning (dl);    complex biomedical systems;    hybrid machine learning;    physiological state quantification;   
DOI  :  10.1080/23746149.2019.1582361
来源: DOAJ
【 摘 要 】

Technological advancements enable collecting vast data, i.e., Big Data, in science and industry including biomedical field. Increased computational power allows expedient analysis of collected data using statistical and machine-learning approaches. Historical data incompleteness problem and curse of dimensionality diminish practical value of pure data-driven approaches, especially in biomedicine. Advancements in deep learning (DL) frameworks based on deep neural networks (DNN) improved accuracy in image recognition, natural language processing, and other applications yet severe data limitations and/or absence of transfer-learning-relevant problems drastically reduce advantages of DNN-based DL. Our earlier works demonstrate that hierarchical data representation can be alternatively implemented without NN, using boosting-like algorithms for utilization of existing domain knowledge, tolerating significant data incompleteness, and boosting accuracy of low-complexity models within the classifier ensemble, as illustrated in physiological-data analysis. Beyond obvious use in initial-factor selection, existing simplified models are effectively employed for generation of realistic synthetic data for later DNN pre-training. We review existing machine learning approaches, focusing on limitations caused by training-data incompleteness. We outline our hybrid framework that leverages existing domain-expert models/knowledge, boosting-like model combination, DNN-based DL and other machine learning algorithms for drastic reduction of training-data requirements. Applying this framework is illustrated in context of analyzing physiological data.

【 授权许可】

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