A vision-based autonomous UAV inspection framework for unknown tunnel construction sites with dynamic obstacles

TL;DR

This paper presents a novel vision-based autonomous UAV framework for inspecting unknown tunnel environments with dynamic obstacles, eliminating the need for prior maps and enhancing safety and efficiency.

Contribution

It introduces a hierarchical planning scheme and a dynamic map module enabling autonomous inspection in unknown, dynamic tunnels without prior mapping.

Findings

Successfully inspected tunnel surfaces in real experiments

Effectively tracked dynamic obstacles during UAV navigation

Achieved autonomous inspection without prior environment knowledge

Abstract

Tunnel construction using the drill-and-blast method requires the 3D measurement of the excavation front to evaluate underbreak locations. Considering the inspection and measurement task's safety, cost, and efficiency, deploying lightweight autonomous robots, such as unmanned aerial vehicles (UAV), becomes more necessary and popular. Most of the previous works use a prior map for inspection viewpoint determination and do not consider dynamic obstacles. To maximally increase the level of autonomy, this paper proposes a vision-based UAV inspection framework for dynamic tunnel environments without using a prior map. Our approach utilizes a hierarchical planning scheme, decomposing the inspection problem into different levels. The high-level decision maker first determines the task for the robot and generates the target point. Then, the mid-level path planner finds the waypoint path and optimizes the collision-free static trajectory. Finally, the static trajectory will be fed into the low-level local planner to avoid dynamic obstacles and navigate to the target point. Besides, our framework contains a novel dynamic map module that can simultaneously track dynamic obstacles and represent static obstacles based on an RGB-D camera. After inspection, the Structure-from-Motion (SfM) pipeline is applied to generate the 3D shape of the target. To our best knowledge, this is the first time autonomous inspection has been realized in unknown and dynamic tunnel environments. Our flight experiments in a real tunnel prove that our method can autonomously inspect the tunnel excavation front surface. Our software is available on GitHub as an open-source ROS package.