IGS-Net: Seeking Good Correspondences via Interactive Generative Structure Learning.

Feature matching, which aims to seek good correspondences from an image pair of the same or similar scene, is one of the important studies on digital remote sensing (RS) image processing. However, alongside the common degradation problems, such as geometric distortion, RS images also often face nonlinear radiation distortions, thereby posing more complex matching patterns. To reduce the cost of establishing reliable correspondences, this article proposes a simple, but effective end-to-end hierarchical learning framework, termed interactive generative structure learning network (IGS-Net). The key thinking of our approach is to offer a structure self-generate learning mechanism, called interactive generative structure learning (IGSL) block, for modeling the local context information of potential correspondences. Specifically, IGSL contains two novel operations: adaptive structure-aware representation (ASR) and physical constraint embedding. Besides, we introduce a coarse-to-fine geometry estimation pipeline aligning two sets of feature points to weaken the degree of randomness in matching patterns, thus improving the generalization ability of representation learning. Overall, this differentiable representation learning architecture can be inserted into existing classification models easily for robust outlier detection and removal. In order to demonstrate that our IGS-Net can boost the baselines, we intensively experiment on both single modality and multimodal RS image datasets. The large amounts of experiment results reveal that the matching performances of IGS-Net are significantly improved over eight state-of-the-art competitors. [ABSTRACT FROM AUTHOR]