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Improvement of Variant Adaptable LSTM Trained With Metaheuristic Algorithms for Healthcare Analysis

Improvement of Variant Adaptable LSTM Trained With Metaheuristic Algorithms for Healthcare Analysis

Tarik A. Rashid, Mohammad K. Hassan, Mokhtar Mohammadi, Kym Fraser
Copyright: © 2021 |Pages: 21
ISBN13: 9781799877059|ISBN10: 1799877051|EISBN13: 9781799877486
DOI: 10.4018/978-1-7998-7705-9.ch048
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MLA

Rashid, Tarik A., et al. "Improvement of Variant Adaptable LSTM Trained With Metaheuristic Algorithms for Healthcare Analysis." Research Anthology on Artificial Intelligence Applications in Security, edited by Information Resources Management Association, IGI Global, 2021, pp. 1031-1051. https://doi.org/10.4018/978-1-7998-7705-9.ch048

APA

Rashid, T. A., Hassan, M. K., Mohammadi, M., & Fraser, K. (2021). Improvement of Variant Adaptable LSTM Trained With Metaheuristic Algorithms for Healthcare Analysis. In I. Management Association (Ed.), Research Anthology on Artificial Intelligence Applications in Security (pp. 1031-1051). IGI Global. https://doi.org/10.4018/978-1-7998-7705-9.ch048

Chicago

Rashid, Tarik A., et al. "Improvement of Variant Adaptable LSTM Trained With Metaheuristic Algorithms for Healthcare Analysis." In Research Anthology on Artificial Intelligence Applications in Security, edited by Information Resources Management Association, 1031-1051. Hershey, PA: IGI Global, 2021. https://doi.org/10.4018/978-1-7998-7705-9.ch048

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Abstract

Recently, the population of the world has increased along with health problems. Diabetes mellitus disease as an example causes issues to the health of many patients globally. The task of this chapter is to develop a dynamic and intelligent decision support system for patients with different diseases, and it aims at examining machine-learning techniques supported by optimization techniques. Artificial neural networks have been used in healthcare for several decades. Most research works utilize multilayer layer perceptron (MLP) trained with back propagation (BP) learning algorithm to achieve diabetes mellitus classification. Nonetheless, MLP has some drawbacks, such as, convergence, which can be slow; local minima can affect the training process. It is hard to scale and cannot be used with time series data sets. To overcome these drawbacks, long short-term memory (LSTM) is suggested, which is a more advanced form of recurrent neural networks. In this chapter, adaptable LSTM trained with two optimizing algorithms instead of the back propagation learning algorithm is presented. The optimization algorithms are biogeography-based optimization (BBO) and genetic algorithm (GA). Dataset is collected locally and another benchmark dataset is used as well. Finally, the datasets fed into adaptable models; LSTM with BBO (LSTMBBO) and LSTM with GA (LSTMGA) for classification purposes. The experimental and testing results are compared and they are promising. This system helps physicians and doctors to provide proper health treatment for patients with diabetes mellitus. Details of source code and implementation of our system can be obtained in the following link “https://github.com/hamakamal/LSTM.”

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