DFLLR: Deep Feature Learning With Latent Relationship Embedding for Remote Sensing Image Retrieval

Abstract

For deep networks, accurate image similarities cannot be well characterized with limited iterations, so the latent relationships between images can be embedded to enhance image retrieval performance. In this article, we propose a method named DFLLR to learn deep image features and accurate image similarities for remote sensing image retrieval (RSIR) simultaneously. First, the AlexNet is employed to extract high-level semantic features. Second, to obtain accurate image similarities, latent relationships between images are constructed with manifold learning and embedded in the AlexNet model with fully connected layers; in this way, the latent relationships and image features can be jointly learned. Third, to boost the RSIR performance further, the constraints of central and margin for jointly learning latent relationships and image features are integrated into our DFLLR. The central constraint is used to reduce the discrepancy of the latent relationships at the intraclass level and enhance the accuracies of image features. Moreover, the margin constraint is designed to enhance the accuracies of the latent relationships by maximizing the manifold margin between the latent relationships at the intraclass and interclass levels. To validate our method, we perform comprehensive experiments on three publicly available remote sensing image datasets, and the results demonstrate that it significantly outperforms other state-of-the-art methods.