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MAENet: Multiple Attention Encoder–Decoder Network for Farmland Segmentation of Remote Sensing Images

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Hai Huan; Yuan Liu; Yaqin Xie; Chao Wang; Dongdong Xu; Yi Zhang
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Abstract:

With the rapid development of computer vision, semantic segmentation as an important part of the technology has made some achievements in different applications. However,...Show More

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Abstract:

With the rapid development of computer vision, semantic segmentation as an important part of the technology has made some achievements in different applications. However, in the farmland segmentation scenario of remote sensing images, the capability of common semantic segmentation methods in restoring the farmland edge and identifying narrow farmland ridges needs to be improved. Therefore, in this letter a semantic segmentation method–multiple attention encoder–decoder network (MAENet)–for farmland segmentation is proposed. The design of a dual-pooling efficient channel attention (DPECA) module and its embedment in the backbone to improve the efficiency of feature extraction is described; secondly, a dual-feature attention (DFA) module is proposed to extract contextual information of high-level features; finally, a global-guidance information upsample (GIU) module is added to the decoder to reduce the influence of redundant information on feature fusion. We use three self-made farmland image datasets representing UAV data to train MAENet and compare them with other methods. The results show that the performances of segmentation and generalization of MAENet are improved compared with other methods. The MIoU and Kappa coefficient in the farmland multi-classification test set can reach 93.74% and 96.74%.
Published in: IEEE Geoscience and Remote Sensing Letters ( Volume: 19)
Article Sequence Number: 2503005
Date of Publication: 22 December 2021

ISSN Information:

DOI: 10.1109/LGRS.2021.3137522

Funding Agency:

Citations are not available for this document.
Contents

I. Introduction

In recent years, with the wide application of AI in agriculture, smart agriculture has become a major research direction for modern and future agricultural development. The appearance of remote sensing by UAV is furthering the development of smart agriculture [1]. Farmland segmentation based on remote sensing images is an important research direction for smart agriculture and an important foundation of smart farmland management. Therefore, the study of an accurate farmland segmentation method that can be applied to high-spatial-resolution remote sensing images is important for the development of smart agriculture.

Cites in Papers - |

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