Velocity Obstacle method adapted for Dynamic Window Approach

Sammanfattning: This thesis project is part of an internship at Visual Behavior. The company aims at producing computer vision models for robotics, helping the machine to better understand the world through the camera eye. The image holds many features that deep learning models are able to extract: navigable area, depth inference and object detection. Example of recent advances are the RAFTstereo model [1] to infer or refine depth features from stereo images, or the end-to-end Object detection model DETR [2]. The field of autonomous navigation can then benefit from these advanced features to propose better path planning methods. In particular, to help the deployment of ground robots in human crowded environments, the robots behavior must not only be safe but it must also look smart so as to inspire trust. This thesis proposes a local path planner based on the Dynamic Window Approach [3] using a scoring function inspired from the Velocity Obstacle method [4] so as to benefit from the flexibility of the first and the long-term anticipation of the second. The proposed method can induce a smart behavior by setting the robot on safe tracks from a long time horizon without increasing the time to reach a positional goal, compared to a closer-ranged strategy inspired from the DW4DO method [5]. This improves the robot’s ability to deal with several moving obstacles and to avoid engaging in already occupied corridors. The code produced in this thesis uses ROS and the gazebo simulator and is available in the following git page https://github.com/FloCoic oi/fc_thesis along with the minimal instructions to run the install and get started to quickly run a demo.