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Gyurkovics, Mate, Balota, David, A., & Jackson, et al. (2018). Mind-wandering in healthy aging and early stage alzheimer’s disease. Neuropsychology.Search in Google Scholar
Jardim, T. V., Witham, M. D., Abrahams-Gessel, S., Gómez-Olivé, F. Xavier, Tollman, S., & Berkman, L., et al. (2018). Cardiovascular disease profile of the oldest adults in rural south africa: data from the haalsi study (health and aging in africa: longitudinal studies of indepth communities). Journal of the American Geriatrics Society, 66.Search in Google Scholar
Yang, WeiWu, BeiTan, Si YingLi, BingqinLou, Vivian W. Q.Chen, Zhuo AdamChen, XiFletcher, James RupertCarrino, LudovicoHu, BoZhang, AnwenHu, MinWang, Yixiao. (2021). Understanding health and social challenges for aging and long-term care in china. Research on aging, 43(3a4).Search in Google Scholar
Kijowski, R., Liu, F., Caliva, F., & Pedoia, V. (2019). Deep learning for lesion detection, progression, and prediction of musculoskeletal disease. Journal of Magnetic Resonance Imaging.Search in Google Scholar
Huang, C., Wang, J., S.-H., W., & Y.-D., Z. (2022). Applicable artificial intelligence for brain disease: a survey. Neurocomputing.Search in Google Scholar
Allan, S., Olaiya, R., & Burhan, R. (2021). Reviewing the use and quality of machine learning in developing clinical prediction models for cardiovascular disease. Postgraduate Medical Journal, postgradmedj-2020-139352.Search in Google Scholar
Sun, R., Xia, X., & Wang, M. H. (2019). Polygenic risk scores and epistatic components for alzheimer’s disease prediction. Genetic epidemiology.(7), 43.Search in Google Scholar
Thangavelu, G., & Selvarajan, S. (2017). Ovarian cancer disease prediction and categorization its level using hybrid classification approach. Research Journal of Biotechnology, 2017(2), 220-228.Search in Google Scholar
Phillips, Aled O.Foxwell, David A.Pradhan, SaraZouwail, SohaRainer, Timothy H. (2021). Derivation of a prediction model for emergency department acute kidney injury. The American journal of emergency medicine, 40(1).Search in Google Scholar
Li, D., Li, Y., Ye, Z., Ibrahim, M., & Jeong, S. P. (2018). An effective risk factor detection and disease prediction (rfd-dp) model applied to hypertension. Journal of Universal Computer Science, 24(9), 1192-1216.Search in Google Scholar
Siddiqui, S., Ahmad, A., & Fatima, N. (2023). Iot-based disease prediction using machine learning. Computers & Electrical Engineering, 108, 108675 - 108675.Search in Google Scholar
Yuan, X., Chen, J., Zhang, K., Wu, Y., & Yang, T. (2022). A stable ai-based binary and multiple class heart disease prediction model for iomt. IEEE transactions on industrial informatics(18-3).Search in Google Scholar
Shivakumar, N., Chandrashekar, A., Handa, A. I., & Lee, R. (2021). Use of deep learning for detection, characterisation and prediction of metastatic disease from computerised tomography: a systematic review. Postgraduate Medical Journal, postgradmedj-2020-139620.Search in Google Scholar
Masud, M., Alhumyani, H., Alshamrani, S. S., Cheikhrouhou, O., & Shorfuzzaman, M. (2020). Leveraging deep learning techniques for malaria parasite detection using mobile application. Wireless Communications and Mobile Computing, 2020(2), 1-15.Search in Google Scholar
Deng, C., & Perkowski, M. (2017). A general data mining methodology based on a weighted hierarchical adaptive voting ensemble (whave) machine learning method. Journal of multiple-valued logic and soft computing, 28(4-5), 409-427.Search in Google Scholar
Jiang, Q., Zhou, X., Wang, R., Ding, W., Chu, Y., & Tang, S., et al. (2022). Intelligent monitoring for infectious diseases with fuzzy systems and edge computing: a survey. Applied Soft Computing(123-), 123.Search in Google Scholar
Wang, X., Chang, Y., Sugumaran, V., Luo, X., & Zhang, H. (2021). Implicit emotion relationship mining based on optimal and majority synthesis from multimodal data prediction. IEEE Multimedia, PP(99), 1-1.Search in Google Scholar
