基于眼底图像的高度近视性黄斑病变分类方法及优化的ALFA-Mix主动学习算法研究
Research on classification method of high myopic maculopathy based on retinal fundus images and optimized ALFA-Mix active learning algorithm.
作者信息
Zhu Shao-Jun, Zhan Hao-Dong, Wu Mao-Nian, Zheng Bo, Liu Bang-Quan, Zhang Shao-Chong, Yang Wei-Hua
机构信息
Huzhou University, School of Information Engineering, Huzhou 313000, Zhejiang Province, China.
Zhejiang Province Key Laboratory of Smart Management & Application of Modern Agricultural Resources, Huzhou University, Huzhou 313000, Zhejiang Province, China.
出版信息
Int J Ophthalmol. 2023 Jul 18;16(7):995-1004. doi: 10.18240/ijo.2023.07.01. eCollection 2023.
AIM
To conduct a classification study of high myopic maculopathy (HMM) using limited datasets, including tessellated fundus, diffuse chorioretinal atrophy, patchy chorioretinal atrophy, and macular atrophy, and minimize annotation costs, and to optimize the ALFA-Mix active learning algorithm and apply it to HMM classification.
METHODS
The optimized ALFA-Mix algorithm (ALFA-Mix+) was compared with five algorithms, including ALFA-Mix. Four models, including ResNet18, were established. Each algorithm was combined with four models for experiments on the HMM dataset. Each experiment consisted of 20 active learning rounds, with 100 images selected per round. The algorithm was evaluated by comparing the number of rounds in which ALFA-Mix+ outperformed other algorithms. Finally, this study employed six models, including EfficientFormer, to classify HMM. The best-performing model among these models was selected as the baseline model and combined with the ALFA-Mix+ algorithm to achieve satisfactory classification results with a small dataset.
RESULTS
ALFA-Mix+ outperforms other algorithms with an average superiority of 16.6, 14.75, 16.8, and 16.7 rounds in terms of accuracy, sensitivity, specificity, and Kappa value, respectively. This study conducted experiments on classifying HMM using several advanced deep learning models with a complete training set of 4252 images. The EfficientFormer achieved the best results with an accuracy, sensitivity, specificity, and Kappa value of 0.8821, 0.8334, 0.9693, and 0.8339, respectively. Therefore, by combining ALFA-Mix+ with EfficientFormer, this study achieved results with an accuracy, sensitivity, specificity, and Kappa value of 0.8964, 0.8643, 0.9721, and 0.8537, respectively.
CONCLUSION
The ALFA-Mix+ algorithm reduces the required samples without compromising accuracy. Compared to other algorithms, ALFA-Mix+ outperforms in more rounds of experiments. It effectively selects valuable samples compared to other algorithms. In HMM classification, combining ALFA-Mix+ with EfficientFormer enhances model performance, further demonstrating the effectiveness of ALFA-Mix+.
目的
利用有限数据集(包括镶嵌状眼底、弥漫性脉络膜视网膜萎缩、斑片状脉络膜视网膜萎缩和黄斑萎缩)对高度近视性黄斑病变(HMM)进行分类研究,尽量减少标注成本,并优化ALFA-Mix主动学习算法并将其应用于HMM分类。
方法
将优化后的ALFA-Mix算法(ALFA-Mix+)与包括ALFA-Mix在内的五种算法进行比较。建立了包括ResNet18在内的四种模型。每种算法与四种模型相结合,在HMM数据集上进行实验。每个实验由20轮主动学习组成,每轮选择100张图像。通过比较ALFA-Mix+优于其他算法的轮数来评估该算法。最后,本研究采用包括EfficientFormer在内的六种模型对HMM进行分类。在这些模型中选择表现最佳的模型作为基线模型,并与ALFA-Mix+算法相结合,以在小数据集上获得满意的分类结果。
结果
ALFA-Mix+在准确性、敏感性、特异性和Kappa值方面分别比其他算法平均优势16.6、14.75、16.8和16.7轮。本研究使用4252张图像的完整训练集,利用几种先进的深度学习模型对HMM分类进行了实验。EfficientFormer取得了最佳结果,准确性、敏感性、特异性和Kappa值分别为0.8821、0.8334、0.9693和0.8339。因此,通过将ALFA-Mix+与EfficientFormer相结合,本研究分别取得了准确性、敏感性、特异性和Kappa值为0.8964、0.8643、0.9721和0.8537的结果。
结论
ALFA-Mix+算法在不影响准确性的情况下减少了所需样本。与其他算法相比,ALFA-Mix+在更多轮实验中表现更优。与其他算法相比,它能有效地选择有价值的样本。在HMM分类中,将ALFA-Mix+与EfficientFormer相结合可提高模型性能,进一步证明了ALFA-Mix+的有效性。
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