近年来可用的许多OCT图像是一种有用的工具,用于支持可以诊断准确疾病和监测患者状态的医生以获得适当的治疗方法。这导致需要检测并显示OCT图像中出现的特征,这些特征像一个具有挑战性的问题显着增加。 意识到每个图像的洞察特征是必要的,本文设计并分析了一个基于视网膜水肿图像数据集提取语义分割的自动化系统,以检测是否存在有助于尽快诊断眼病的有效元素,并提供大量的合理的治疗。我们选择计算机视觉来解决上述语义图像分割问题,这显示了令人印象深刻的结果,并考虑了最先进的方法。结果包括图像预处理,允许处理大尺寸和通道的输入图像。此外,新型号适应轻量级和高精度。 此外,我们最近通过使用参数和准确性两个方面与先进方法比较和评估我们的结果。 最后,由我们自己设计的ACPX模型的准确率达到78.19%,比基线模型提高了29.75%。 ;A number of OCT imageries available become popular in recent years is a tool useful to support doctors that can diagnosis accurate illnesses and monitoring status of patients for appropriate treatment methods. That lead to demand for detect and show appeared features in OCT images that increase significantly like a challenging problem. Aware of insight characters of each image is necessary, this thesis designs and analysis an automated system for extracting semantic segmentation based on retinal edema image datasets to detect cons elements exist or not that help to diagnose eye diseases as soon as possible and offer a lot of reasonable treatments. We have chosen computer vision to solute this above problem for semantic image segmentation, which shows impressive outcomes and considers the state-of-the-art method. The resulting includes image preprocessing that allows coping with input image of big dimension and channels. Moreover, a new model adapts to lightweight and accuracy high. Additionally, we compare and evaluate our result with advanced methods recently through two aspects like using parameters and accuracy. Finally, An ACPX Model which is designed by ourself achieves 78.19% the accuracy that improves 29.75% to baseline model.
