OF-VO: Reliable Navigation among Pedestrians Using Commodity Sensors.

Abstract

We present a novel algorithm for safe navigation of a mobile robot among pedestrians. Our approach uses commodity visual sensors, including RGB-D cameras and a 2D lidar, for explicitly predicting the velocities and positions of surrounding obstacles through optical flow estimation and object detection. Given these partial observations of the environment, we present a modified velocity-obstacle (VO) algorithm to compute collision-free trajectories for the robot. A key aspect of our work is the coupling between the perception (OF: optical flow) and planning (VO) components for reliable navigation. Overall, our OF-VO algorithm is a hybrid combination of learning-based and model-based methods and offers better performance over prior algorithms in terms of navigation time and success rate of collision avoidance. We highlight the realtime performance of OF-VO in simulated and real-world dynamic scenes on a Turtlebot robot navigating among pedestrians with commodity sensors. A demo video is available at \url{this https URL}