Machine learning models based on the dimensionality reduction of standard automated perimetry data for glaucoma diagnosis
作者:
Highlights:
• A set of machine learning-based diagnostic models are designed that implement data manipulation, dimensionality reduction, and classification methods.
• Structure-functional and anatomical knowledge are reflected via new input variables derived from visual field clustering schemes.
• Dimensionality reduction is conducted to select important variables so as to alleviate high-dimensionality problems.
• For comparison, we applied various visual field clustering schemes, dimensionality reduction techniques, and classifiers and obtained the best model giving an AUC of 0.912.
摘要
•A set of machine learning-based diagnostic models are designed that implement data manipulation, dimensionality reduction, and classification methods.•Structure-functional and anatomical knowledge are reflected via new input variables derived from visual field clustering schemes.•Dimensionality reduction is conducted to select important variables so as to alleviate high-dimensionality problems.•For comparison, we applied various visual field clustering schemes, dimensionality reduction techniques, and classifiers and obtained the best model giving an AUC of 0.912.
论文关键词:Glaucoma,Machine learning classifier,Dimensionality reduction,Visual field clustering
论文评审过程:Received 27 October 2016, Revised 12 November 2018, Accepted 25 February 2019, Available online 25 February 2019, Version of Record 28 February 2019.
论文官网地址:https://doi.org/10.1016/j.artmed.2019.02.006
