Go to TGRS 2021 homepageSLCRF: Subspace Learning With Conditional Random Field for Hyperspectral Image Classification
Abstract: Subspace learning (SL) plays an essential role in hyperspectral image (HSI) classification since it can provide an effective solution to reduce the redundant information in the image pixels of HSIs. Previous works about SL aim to improve the accuracy of HSI recognition. Using a large number of labeled samples, related methods can train the parameters of the proposed solutions to obtain better representations of HSI pixels. However, the data instances may not be sufficient to learn a precise model for HSI classification in real applications. Moreover, it is well known that it takes much time, labor, and human expertise to label HSI images. To avoid the abovementioned problems, a novel SL method that includes the probability assumption called SL with the conditional random field (SLCRF) is developed. In SLCRF, the 3-D convolutional autoencoder (3DCAE) is first introduced to remove the redundant information in HSI pixels. Besides, the relationships are also constructed using spectral–spatial information among the adjacent pixels. Then, the conditional random field (CRF) framework can be constructed and further embedded into the HSI SL procedure with the semisupervised approach. Through the linearized alternating direction method termed LADMAP, the objective function of SLCRF is optimized using a defined iterative algorithm. The proposed method is comprehensively evaluated using the challenging public HSI data sets. We can achieve state-of-the-art performance using these HSI sets.
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