Motivated by the need for photo-realistic simulation in autonomous driving, in this paper we present a video inpainting algorithm \emph{AutoRemover}, designed specifically for generating street-view videos without any moving objects. In our setup we have two challenges: the first is the shadow, shadows are usually unlabeled but tightly coupled with the moving objects. The second is the large ego-motion in the videos. To deal with shadows, we build up an autonomous driving shadow dataset and design a deep neural network to detect shadows automatically. To deal with large ego-motion, we take advantage of the multi-source data, in particular the 3D data, in autonomous driving. More specifically, the geometric relationship between frames is incorporated into an inpainting deep neural network to produce high-quality structurally consistent video output. Experiments show that our method outperforms other state-of-the-art (SOTA) object removal algorithms, reducing the RMSE by over 19%.
@article{arxiv.1911.12588,
title = {AutoRemover: Automatic Object Removal for Autonomous Driving Videos},
author = {Rong Zhang and Wei Li and Peng Wang and Chenye Guan and Jin Fang and Yuhang Song and Jinhui Yu and Baoquan Chen and Weiwei Xu and Ruigang Yang},
journal= {arXiv preprint arXiv:1911.12588},
year = {2019}
}