神经网络模型在低视力患者辅助设备适配中的应用。

Application of neural network model in assisting device fitting for low vision patients.

作者信息

Dai Bingfa, Yu Yang, Huang Lijuan, Meng Zhiyong, Chen Liang, Luo Hongxia, Chen Ting, Chen Xuelan, Ye Wenwen, Yan Yuyuan, Cai Chi, Zheng Jianqing, Zhao Jun, Dong Liquan, Hu Jianmin

机构信息

Department of Ophthalmology, The Second Affiliated Hospital of Fujian Medical University, Quanzhou, China.

Fujian Province University Engineering Research Center of Assistive Technology for Visual Impairment, Quanzhou, China.

出版信息

Ann Transl Med. 2020 Jun;8(11):702. doi: 10.21037/atm.2020.02.161.

DOI:10.21037/atm.2020.02.161

PMID:32617322

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7327309/

Abstract

BACKGROUND

To explore the application of neural network models in artificial intelligence (AI)-aided devices fitting for low vision patients.

METHODS

The data of 836 visually impaired people were collected in southwestern Fujian from May 2014 to May 2017. After a full eye examination, 629 low vision patients were selected from this group. Based on the visual functions, rehabilitation needs, and living quality scores of the selected patients, the professionals chose assistive devices that were the best fit for the patients. The data of these three factors were then subjected to the quantitative analysis, and the results were digitized and labeled. The final datasets were used to train a fully connected deep neural networks to obtain an AI-aided model for assistive device fitting.

RESULTS

In this study, the main causes of low vision in southwestern Fujian were congenital diseases, among which congenital cataract was the most common. During the low vision AI-aided devices fitting, we found that the intermediate distance magnifier was suitable for the largest number of patients. Through quantitative analysis of the research results, it was found that AI-aided devices fitting was closely related to visual function, rehabilitation needs and quality of life. If this complex relationship can be mapped into the neural network model, AI-aided device fitting can be realized. We built a fully connected neural network model for AI-aided device fitting. The input of the model was the characteristic data of low vision patients, and the output was the forecast of suitable devices. When the threshold of the model was 0.4, the accuracy was about 80% and the F1 value was about 0.31. This threshold can be used as the classification judgment threshold of the model.

CONCLUSIONS

Low vision AI-aided device fitting is closely related to visual function, rehabilitation needs, and quality of life scores. The neural network model based on full connection can achieve high accuracy in AI-aided devices fitting. It has a great impact on clinical application.

摘要

背景

探讨神经网络模型在人工智能（AI）辅助低视力患者适配助视设备中的应用。

方法

2014年5月至2017年5月在福建西南部收集了836名视力障碍者的数据。经过全面的眼部检查后，从该组中选取了629名低视力患者。基于所选患者的视觉功能、康复需求和生活质量评分，专业人员选择了最适合患者的助视设备。然后对这三个因素的数据进行定量分析，并将结果数字化和标注。最终数据集用于训练全连接深度神经网络，以获得助视设备适配的AI辅助模型。

结果

在本研究中，福建西南部低视力的主要原因是先天性疾病，其中先天性白内障最为常见。在低视力AI辅助设备适配过程中，我们发现中距离放大镜适用于最多的患者。通过对研究结果的定量分析，发现AI辅助设备适配与视觉功能、康复需求和生活质量密切相关。如果这种复杂关系能够映射到神经网络模型中，就可以实现AI辅助设备适配。我们构建了一个用于AI辅助设备适配的全连接神经网络模型。该模型的输入是低视力患者的特征数据，输出是合适设备的预测。当模型阈值为0.4时，准确率约为80%，F1值约为0.31。这个阈值可作为模型的分类判断阈值。

结论

低视力AI辅助设备适配与视觉功能、康复需求和生活质量评分密切相关。基于全连接的神经网络模型在AI辅助设备适配中可实现较高准确率。它对临床应用有很大影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/75ce/7327309/8bb4486798f9/atm-08-11-702-f1.jpg

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神经网络模型在低视力患者辅助设备适配中的应用。

Application of neural network model in assisting device fitting for low vision patients.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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