DEEP LEARNING FOR REMOTE SENSING IMAGE CLASSIFICATION FOR AGRICULTURE APPLICATIONS

L. Hashemi-Beni, A. Gebrehiwot
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引用次数: 16

Abstract

Abstract. This research examines the ability of deep learning methods for remote sensing image classification for agriculture applications. U-net and convolutional neural networks are fine-tuned, utilized and tested for crop/weed classification. The dataset for this study includes 60 top-down images of an organic carrots field, which was collected by an autonomous vehicle and labeled by experts. FCN-8s model achieved 75.1% accuracy on detecting weeds compared to 66.72% of U-net using 60 training images. However, the U-net model performed better on detecting crops which is 60.48% compared to 47.86% of FCN-8s.
深度学习在农业遥感图像分类中的应用
摘要本研究考察了深度学习方法在农业遥感图像分类中的应用能力。U-net和卷积神经网络被微调、应用和测试用于作物/杂草分类。本研究的数据集包括60张有机胡萝卜田的自上而下的图像,这些图像由自动驾驶汽车收集并由专家标记。FCN-8s模型对60张训练图像的杂草检测准确率为75.1%,而U-net模型的准确率为66.72%。而U-net模型对作物的识别率为60.48%,优于fcn -8模型的47.86%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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