Fully Residual Convolutional Neural Networks for Aerial Image Segmentation

Proceedings of the 9th International Symposium on Information and Communication Technology Pub Date : 2018-12-06 DOI:10.1145/3287921.3287970

D. V. Sang, N. D. Minh

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引用次数: 6

Abstract

Semantic segmentation from aerial imagery is one of the most essential tasks in the field of remote sensing with various potential applications ranging from map creation to intelligence service. One of the most challenging factors of these tasks is the very heterogeneous appearance of artificial objects like buildings, cars and natural entities such as trees, low vegetation in very high-resolution digital images. In this paper, we propose an efficient deep learning approach to aerial image segmentation. Our approach utilizes the architecture of fully convolutional network (FCN) based on the backbone ResNet101 with additional upsampling skip connections. Besides typical color channels, we also use DSM and normalized DSM (nDSM) as the input data of our models. We achieve overall accuracy of 91%, which is in top 4 among 140 submissions from all over the world on the well-known Vaihingen dataset from ISPRS 2D Semantic Labeling Contest. Especially, our approach yields better results then all state-of-the-art methods in segmentation of car objects.

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航空图像分割的全残差卷积神经网络

航空图像的语义分割是遥感领域最重要的任务之一，具有从地图制作到情报服务等多种潜在应用。这些任务中最具挑战性的因素之一是，在非常高分辨率的数字图像中，建筑物、汽车等人工物体和树木、低植被等自然实体的外观非常不同。在本文中，我们提出了一种高效的航空图像分割的深度学习方法。我们的方法利用基于骨干ResNet101的全卷积网络(FCN)架构，并具有额外的上采样跳过连接。除了典型的色彩通道外，我们还使用DSM和归一化DSM (nDSM)作为模型的输入数据。我们实现了91%的总体准确率，在ISPRS 2D语义标记竞赛中来自世界各地的140个提交的著名Vaihingen数据集中排名前四。特别是，我们的方法在分割汽车对象方面比所有最先进的方法产生更好的结果。

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Proceedings of the 9th International Symposium on Information and Communication Technology

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