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Segmenting vegetation from UAV images via spectral reconstruction in complex field environments

Zhixun Pei, Xingcai Wu, Xue Wu, Yuanyuan Xiao, Peijia Yu, Zhenran Gao, Qi Wang, Wei Guo

2025Plant Phenomics14 citationsDOIOpen Access PDF

Abstract

Segmentation of vegetation remote sensing images can minimize the interference of background, thus achieving efficient monitoring and analysis for vegetation information. The segmentation of vegetation poses a significant challenge due to the inherently complex environmental conditions. Currently, there is a growing trend of using spectral sensing combined with deep learning for field vegetation segmentation to cope with complex environments. However, two major constraints remain: the high cost of equipment required for field spectral data collection; the availability of field datasets is limited and data annotation is time-consuming and labor-intensive. To address these challenges, we propose a weakly supervised approach for field vegetation segmentation by using spectral reconstruction (SR) techniques as the foundation and drawing on the theory of vegetation index (VI). Specifically, to reduce the cost of data acquisition, we propose SRCNet and SRANet based on convolution and attention structure to reconstruct multispectral images of fields, respectively. Then, borrowing from the VI principle, we aggregate the reconstructed data to establish the connection of spectral bands, obtaining more salient vegetation information. Finally, we employ the adaptation strategy to segment the fused feature map using a weakly supervised method, which does not require manual labeling to obtain a field vegetation segmentation result. Our segmentation method can achieve a Mean Intersection over Union (MIoU) of 0.853 on real field datasets, which outperforms the existing methods. In addition, we have open-sourced a dataset of unmanned aerial vehicle (UAV) RGB-multispectral images, comprising 2358 pairs of samples, to improve the richness of remote sensing agricultural data. The code and data are available at ​https://github.com/GZU-SAMLab/VegSegment_SR, and ​http://sr-seg.samlab.cn/.

Topics & Concepts

Field (mathematics)Vegetation (pathology)Artificial intelligenceComputer visionRemote sensingComputer scienceMarket segmentationGeologyGeographyMathematicsBusinessMedicinePure mathematicsPathologyMarketingRemote Sensing in AgricultureRemote Sensing and LiDAR ApplicationsRemote Sensing and Land Use
Segmenting vegetation from UAV images via spectral reconstruction in complex field environments | Litcius