Urban Area Change Detection with Combining CNN and RNN from Sentinel-2 Multispectral Remote Sensing Data

Uus Khusni, H. I. Dewangkoro, A. M. Arymurthy
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引用次数: 4

Abstract

Change detection is one of the hot issues related to world observation and has been extensively studied in recent decades. The application of remote sensing technology provides inputs to systems for urban change detection primarily focus on the urban data user environment. Urban change detection refers to the general problem of monitoring the urban system and discerning changes that are occurring within that system that use to urban planners, managers, and researchers. Current methods based on a simple mechanism for independently encoding bi-temporal images to get their representation vectors. In fact, these methods do not make full use of the rich information between bi-temporal images. We propose to combine deep learning methods such as Convolutional Neural Network (U-Net) for feature extraction and Recurrent Neural Network (BiLSTM) temporal modeling. Our developed model while the validation phase gets 97.418% overall accuracy on the Onera Satellite Change Detection (OSCD) Sentinel-2 bi-temporal dataset.
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基于CNN和RNN的Sentinel-2多光谱遥感城市面积变化检测
变化检测是世界观测领域的热点问题之一,近几十年来得到了广泛的研究。遥感技术的应用为城市变化检测系统提供了输入,主要侧重于城市数据用户环境。城市变化检测是指监测城市系统和识别系统内发生的变化的一般问题,这些变化适用于城市规划者、管理者和研究人员。目前的方法是基于一种简单的机制,对双时相图像进行独立编码以获得它们的表示向量。事实上,这些方法并没有充分利用双时相图像之间丰富的信息。我们建议结合深度学习方法,如卷积神经网络(U-Net)的特征提取和递归神经网络(BiLSTM)的时间建模。在Onera卫星变化检测(OSCD) Sentinel-2双时态数据集上,我们开发的模型在验证阶段的总体精度为97.418%。
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