[1] 1黄鸿， 张臻， 李政英. 面向高光谱影像分类的深度流形重构置信网络［J］. 光学 精密工程， 2021， 29（8）：1985-1998. doi: 10.37188/OPE.20212908.1985HUANGH， ZHANGZH， LIZH Y. Deep manifold reconstruction belief network for hyperspectral remote sensing image classification［J］. Opt. Precision Eng.， 2021， 29（8）：1985-1998.（in Chinese）. doi: 10.37188/OPE.20212908.1985

[2] 2樊星皓， 刘春雨， 金光， 等. 轻小型高分辨率星载高光谱成像光谱仪［J］. 光学 精密工程， 2021， 29（3）： 463-473. doi: 10.37188/ope.20212903.0463FANX H， LIUCH Y， JING， et al. Small and high-resolution spaceborne hyperspectral imaging spectrometer［J］. Opt. Precision Eng.， 2021， 29（3）： 463-473.（in Chinese）. doi: 10.37188/ope.20212903.0463

[3] H M QIN, W Q ZHOU, Y YAO et al. Estimating aboveground carbon stock at the scale of individual trees in subtropical forests using UAV LiDAR and hyperspectral data. Remote Sensing, 13, 4969(2021).

[4] C CRUZ-RAMOS, B P GARCIA-SALGADO, R REYES-REYES et al. Gabor features extraction and land-cover classification of urban hyperspectral images for remote sensing applications. Remote Sensing, 13, 2914(2021).

[5] Q C LIU, L XIAO, J X YANG et al. Content-guided convolutional neural network for hyperspectral image classification. IEEE Transactions on Geoscience and Remote Sensing, 58, 6124-6137(2020).

[6] Z BINTA ZAKARIA, M R ISLAM. Hybrid 3DNet： hyperspectral image classification with spectral-spatial dimension reduction using 3D CNN. International Journal of Computer Applications, 184, 6-11(2022).

[7] S JIA, S G JIANG, S Y ZHANG et al. Graph-in-graph convolutional network for hyperspectral image classification. IEEE Transactions on Neural Networks and Learning Systems(2022).

[8] 8刘桂雄， 黄坚. 基于标签预留Softmax算法的机器视觉检测鉴别语义分割迁移学习技术［J］. 光学 精密工程， 2022， 30（1）：117-125. doi: 10.37188/OPE.20223001.0117LIUG X， HUANGJ. Transfer learning techniques for semantic segmentation of machine vision inspection and identification based on label-reserved Softmax algorithms［J］. Opt. Precision Eng.， 2022， 30（1）：117-125.（in Chinese）. doi: 10.37188/OPE.20223001.0117

[9] Y HUANG, J T PENG, Y J NING et al. Graph embedding and distribution alignment for domain adaptation in hyperspectral image classification. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 14, 7654-7666(2021).

[10] J F CHEN, G CHEN, B FANG et al. Class-aware domain adaptation for coastal land cover mapping using optical remote sensing imagery. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 14, 11800-11813(2021).

[11] B DENG, S JIA, D M SHI. Deep metric learning-based feature embedding for hyperspectral image classification. IEEE Transactions on Geoscience and Remote Sensing, 58, 1422-1435(2020).

[12] 12赵春晖， 李彤， 冯收. 基于密集卷积和域自适应的高光谱图像分类［J］. 光子学报， 2021， 50（3）： 0310001. doi: 10.3788/gzxb20215003.0310001ZHAOCH H， LIT， FENGSH. Hyperspectral image classification based on dense convolution and domain adaptation［J］. Acta Photonica Sinica， 2021， 50（3）： 0310001.（in Chinese）. doi: 10.3788/gzxb20215003.0310001

[13] 13周钢， 郭福亮. 集成学习方法研究［J］. 计算技术与自动化， 2018， 37（4）： 148-153. doi: 10.16339/j.cnki.jsjsyzdh.201804026ZHOUG， GUOF L. Research on ensemble learning［J］. Computing Technology and Automation， 2018， 37（4）： 148-153.（in Chinese）. doi: 10.16339/j.cnki.jsjsyzdh.201804026

[14] 14陈伟民， 张凌， 宋冬梅， 等. 基于AdaBoost改进随机森林的高光谱图像地物分类方法研究［J］. 遥感技术与应用， 2018， 33（4）： 612-620. doi: 10.11873/j.issn.1004-0323.2018.4.0612CHENW M， ZHANGL， SONGD M， et al. Research on hyperspectral imagery land cover classification method based on AdaBoost improved random forest［J］. Remote Sensing Technology and Application， 2018， 33（4）： 612-620.（in Chinese）. doi: 10.11873/j.issn.1004-0323.2018.4.0612

[15] 15李润祥， 高小红， 汤敏. 基于双树复小波分解的Boosting集成学习土地覆被分类研究［J］. 遥感技术与应用， 2022， 37（2）： 354-356， 358.LIR X， GAOX H， TANGM. Study on boosting ensemble learning land cover classification based on dual-tree complex wavelet transform［J］. Remote Sensing Technology and Application， 2022， 37（2）： 354-356， 358.（in Chinese）

[16] T CHEN, C GUESTRIN. XGBoost： a scalable tree boosting system. arXiv, 1603-02754(2016). https：//arxiv.org/abs/1603.02754

[17] W DU, H CHEN, P LIAO et al. Visual attention network for low dose CT. arXiv, 1810-13059(2018). https：//arxiv.org/abs/1810.13059

[18] J M CAO, Y Y LI, M C SUN et al. DO-conv： depthwise over-parameterized convolutional layer. IEEE Transactions on Image Processing： a Publication of the IEEE Signal Processing Society, 31, 3726-3736(2022).

[19] A PLAZA, J A BENEDIKTSSON, J W BOARDMAN et al. Recent advances in techniques for hyperspectral image processing. Remote Sensing of Environment, 113, S110-S122(2009).

[20] P LI, H HU, T CHENG et al. High-resolution multispectral image classification over urban areas by image segmentation and extended morphological profile, 3252-3254(2006).

[21] Y S CHEN, Y WANG, Y F GU et al. Deep learning ensemble for hyperspectral image classification. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 12, 1882-1897(2019).

[22] A L WANG, C Y LIU, D XUE et al. Hyperspectral image classification based on cross-scene adaptive learning. Symmetry, 13, 1878-1894(2021).