Non-invasive health prediction from visually observable features [version 2; peer review: 1 approved, 2 approved with reservations]

Background: The unprecedented development of Artificial Intelligence has revolutionised the healthcare industry. In the next generation of healthcare systems, self-diagnosis will be pivotal to personalised healthcare services. During the COVID-19 pandemic, new screening and diagnostic approaches lik...

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Bibliographic Details
Published in:F1000 research 2022, Vol.10, p.918-918
Main Authors: Khong, Fan Yi, Connie, Tee, Goh, Michael Kah Ong, Wong, Li Pei, Teh, Pin Shen, Choo, Ai Ling
Format: Article
Language:English
Subjects:
Accuracy
Artificial intelligence
Cancer
Classification
Computer applications
COVID-19
Datasets
Deep learning
Discriminant analysis
Disease spread
Down syndrome
Facial recognition technology
Generalized linear models
Genetic disorders
Health care
Learning algorithms
Machine learning
Neural networks
Patients
Predictions
Support vector machines
Wavelet transforms
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Summary:Background: The unprecedented development of Artificial Intelligence has revolutionised the healthcare industry. In the next generation of healthcare systems, self-diagnosis will be pivotal to personalised healthcare services. During the COVID-19 pandemic, new screening and diagnostic approaches like mobile health are well-positioned to reduce disease spread and overcome geographical barriers. This paper presents a non-invasive screening approach to predict the health of a person from visually observable features using machine learning techniques. Images like face and skin surface of the patients are acquired using camera or mobile devices and analysed to derive clinical reasoning and prediction of the person's health. Methods: In specific, a two-level classification approach is presented. The proposed hierarchical model chooses a class by training a binary classifier at the node of the hierarchy. Prediction is then made using a set of class-specific reduced feature set. Results: Testing accuracies of 86.87% and 76.84% are reported for the first and second-level classification. Empirical results demonstrate that the proposed approach yields favourable prediction results while greatly reduces the computational time. Conclusions: The study suggests that it is possible to predict the health condition of a person based on his/her face appearance using cost-effective machine learning approaches.
ISSN:2046-1402
2046-1402
DOI:10.12688/f1000research.72894.2