Gated Autoencoder Network for Spectral-Spatial Hyperspectral Unmixing

Convolution-based autoencoder networks have yielded promising performances in exploiting spatial-contextual signatures for spectral unmixing. However, the extracted spectral and spatial features of some networks are aggregated, which makes it difficult to balance their effects on unmixing results. In this paper, we propose two gated autoencoder networks with the intention of adaptively controlling the contribution of spectral and spatial features in unmixing process. Gating mechanism is adopted in the networks to filter and regularize spatial features to construct an unmixing algorithm based on spectral information and supplemented by spatial information. In addition, abundance sparsity regularization and gating regularization are introduced to ensure the appropriate implementation. Experimental results validate the superiority of the proposed method to the state-of-the-art techniques in both synthetic and real-world scenes. This study confirms the effectiveness of gating mechanism in improving the accuracy and efficiency of utilizing spatial signatures for spectral unmixing.

Automated summary

This paper proposes two gated autoencoder networks that adaptively control the contribution of spectral and spatial features in spectral unmixing, filtering and regularization spatial features through gating mechanism, achieving superior experimental results compared to state-of-the-art techniques.