PMPNet: Pixel Movement Prediction Network for Monocular Depth Estimation in Dynamic Scenes

Abstract

In this paper, we propose a novel method for monocular depth estimation in dynamic scenes. We first explore the arbitrariness of object’s movement trajectory in dynamic scenes theoretically. To overcome the arbitrariness, we use assume that points move along a straight line over short distances and then summarize it as a triangular constraint loss in two dimensional Euclidean space. This triangular loss function is used as part of our proposed pixel movement prediction network, PMPNet, to estimate a dense depth map from a single input image. To overcome the depth inconsistency problem around the edges, we propose a deformable support window module that learns features from different shapes of objects, making depth value more accurate around edge area. The proposed model is trained and tested on two outdoor datasets - KITTI and Make3D, as well as an indoor dataset - NYU Depth V2. The quantitative and qualitative results reported on these datasets demonstrate the success of our proposed model when compared against other approaches. Ablation study results on the KITTI dataset also validate the effectiveness of the proposed pixel movement prediction module as well as the deformable support window module.