Image-based 3D model and hyperspectral data fusion for improved scene understanding

Abstract

We address the problem of automatically fusing hyperspectral data of a digitized scene with an image-based 3D model, overlapping the same scene, in order to associate material spectra with corresponding height information for improved scene understanding. The datasets have been independently collected at different spatial resolutions by different aerial platforms and the georegistration information about the datasets is assumed to be insufficient or unavailable. We propose a method to solve the fusion problem by associating Scale Invariant Feature Transform (SIFT) descriptors from the hyperspectral data with the corresponding 3D point cloud in a large scale 3D model. We find the correspondences efficiently without affecting matching performance by limiting the initial search space to the centroids obtained after performing k-means clustering. Finally, we apply the Optimal Randomized RANdom Sample Consensus (RANSAC) algorithm to enforce geometric alignment of the hyperspectral images onto the 3D model. We present preliminary results that show the effectiveness of the method using two large datasets collected from drone-based sensors in an urban setting.