Assistive System for Navigating Complex Realistic Simulated World Using Reinforcement Learning
Abstract
Finding a free path without obstacles or situation that pose minimal risk is critical for safe navigation. People who are sighted and people who are blind or visually impaired require navigation safety while walking on a sidewalk. In this paper we develop assistive navigation on a sidewalk by integrating sensory inputs using reinforcement learning. We train the reinforcement model in a simulated robotic environment which is used to avoid sidewalk obstacles. A conversational agent is built by training with real conversation data. The reinforcement learning model along with a conversational agent improved the obstacle avoidance experience about 2.5% from the base case which is 78.75%.
Publication Title
Proceedings of the International Joint Conference on Neural Networks
Recommended Citation
Ahmed, F., Mahmud, M., & Yeasin, M. (2020). Assistive System for Navigating Complex Realistic Simulated World Using Reinforcement Learning. Proceedings of the International Joint Conference on Neural Networks https://doi.org/10.1109/IJCNN48605.2020.9207716