Local Map-Based DQN Navigation and a Transferability Metric Using Scene Similarity
share
Autonomous navigation in unknown environments without a global map is a long-standing challenge for mobile robots. While deep reinforcement learning (DRL) has attracted a rapidly growing interest in solving such an autonomous navigation problem for its generalization capability, DRL typically leads to a mediocre navigation performance in practice due to the gap between the training scene and the actual test scene. Most existing work focuses on tuning the algorithm to enhance its transferability, whereas few investigates how to quantify or measure the gap therebetween. This letter presents a local map-based deep Q-network (DQN) navigation algorithm, which uses local maps converted from 2D LiDAR data as observations without a global map. More importantly, this letter proposes a new transferability metric – the scene similarity calculated from an improved image template matching algorithm to measure the similarity between the training and test scenes. With a wheeled robot as the case study platform, both simulation and real-world experiments are conducted in a total of 20 different scenes. The case study results successfully validate the local map-based navigation algorithm as well as the similarity metric in predicting the transferability or success rate of the algorithm.
READ FULL TEXT
