Experimental Analysis of U-Net and Mask R-CNN for Segmentation of Synthetic Liquid Spray

Refat Khan Pathan, Wei Lun Lim, Sian Lun Lau, C. Ho, P. Khare, R. Koneru
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引用次数: 1

Abstract

In digital image processing, segmentation is a process by which we can partition an image based on some variables to extract necessary elements. Unlike typical objects, it is complicated to segment dynamic objects from a synthetic fluid dataset where properties like position and shape change over time. Experiments on image segmentation over this dataset are conducted using U-Net (semantic segmentation) and Mask R-CNN (instance segmentation) to compare their results. The training dataset is generated from seven labelled images through data augmentation. Training on 1000 and validating on 200 images, Mask R-CNN achieved more epochs quickly. Around 1000 epochs for Mask R-CNN and 500 epochs for U-Net, both models reached a similar result in terms of F1 score and can segment the object in the new images.
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U-Net和掩模R-CNN用于合成液体喷雾分割的实验分析
在数字图像处理中,分割是一种基于某些变量对图像进行分割以提取必要元素的过程。与典型对象不同,从位置和形状等属性随时间变化的合成流体数据集中分割动态对象是复杂的。在该数据集上使用U-Net(语义分割)和Mask R-CNN(实例分割)进行图像分割实验,比较其结果。训练数据集是通过数据增强从7个标记图像中生成的。在1000个图像上训练,在200个图像上验证,Mask R-CNN快速实现了更多的时代。Mask R-CNN在1000次epoch左右,U-Net在500次epoch左右,两种模型在F1得分方面达到了相似的结果,可以在新图像中分割出目标。
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