SyntCities: A Large Synthetic Remote Sensing Dataset for Disparity Estimation
Mario Fuentes Reyes, Pablo d’Angelo, Friedrich Fraundorfer
Abstract
Studies in the last years have proved the outstanding performance of deep learning for computer vision tasks in the remote sensing field, such as disparity estimation. However, available datasets mostly focus on close-range applications like autonomous driving or robot manipulation. To reduce the domain gap while training we present SyntCities, a synthetic dataset resembling the aerial imagery on urban areas. The pipeline used to render the images is based on 3D modelling, which helps to avoid acquisition costs, provides sub-pixel accurate dense ground truth and simulates different illumination conditions. The dataset additionally provides multi-class semantic maps and can be used converted to point cloud format to benefit a wider research community. We focus on the task of disparity estimation and evaluate the performance of the traditional Semi-Global Matching and state of the art architectures, trained with SyntCities and other datasets, on real aerial and satellite images. A comparison with the widely used SceneFlow dataset is also presented. Strategies using a mixture of both real and synthetic samples are studied as well. Results show significant improvements in terms of accuracy for the disparity maps. SyntCities can be downloaded at: https://tinyurl.com/77e3n6m9