Stacking approach for CNN transfer learning ensemble for remote sensing imagery

2017 Intelligent Systems Conference (IntelliSys) Pub Date : 2017-09-01 DOI:10.1109/INTELLISYS.2017.8324356

O. Korzh, Gregory Cook, T. Andersen, Edoardo Serra

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引用次数: 9

Abstract

In this paper we propose a stacking approach for Convolutional Neural Network (CNN) transfer learning ensemble for remote sensing imagery, in particular for the task of scene classification. We propose to use a combination of features produced by an ensemble of CNNs as one feature vector for classification. At the same time the original data set can be processed with different up-sampling and image enhancement methods and then used to obtain more features from pretrained networks. We investigate both fine-tuning and non fine-tuning approaches for transfer learning. We have selected Brazilian Coffee Scenes data set as a benchmark to measure the classification accuracy. Proposed method in case of a non fine-tuned model shows 89.18% classification accuracy. For a fine-tuned model the best classification rate is 96.11%. We analyzed how networks that have appeared recently (VGG-19 and SqueezeNet), can be applied to the task of transfer learning for remote sensing. Also we describe a method of decreasing processing time and memory consumption while preserving classification accuracy by using feature selection based on feature importance.

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遥感图像CNN迁移学习集成的叠加方法

本文提出了一种用于遥感图像卷积神经网络(CNN)迁移学习集成的叠加方法，特别是用于场景分类任务。我们建议使用由cnn集合产生的特征组合作为分类的一个特征向量。同时，可以对原始数据集进行不同的上采样和图像增强方法处理，然后从预训练的网络中获得更多的特征。我们研究了迁移学习的微调和非微调方法。我们选择了巴西咖啡场景数据集作为衡量分类准确性的基准。在非微调模型的情况下，该方法的分类准确率为89.18%。对于一个微调模型，最佳分类率为96.11%。我们分析了最近出现的网络(VGG-19和SqueezeNet)如何应用于遥感迁移学习任务。此外，我们还描述了一种基于特征重要性的特征选择方法，在保持分类精度的同时减少处理时间和内存消耗。

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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2017 Intelligent Systems Conference (IntelliSys)

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