An Efficient Navigation Framework for Autonomous Mobile Robots in Dynamic Environments using Learning Algorithms

Xuan-Tung Truong; Hong Toan Dinh; Cong Dinh Nguyen

doi:10.15625/1813-9663/33/2/9822

An Efficient Navigation Framework for Autonomous Mobile Robots in Dynamic Environments using Learning Algorithms

Xuan-Tung Truong, Hong Toan Dinh, Cong Dinh Nguyen

Author affiliations

Authors

Xuan-Tung Truong Le Quy Don Technical University
Hong Toan Dinh Le Quy Don Technical University
Cong Dinh Nguyen Le Quy Don Technical University

DOI:

https://doi.org/10.15625/1813-9663/33/2/9822

Keywords:

Autonomous mobile robot, Mobile robot navigation, Reinforcement learning, Q-learning

Abstract

In this paper, we propose an efficient navigation framework for autonomous mobile robots in dynamic environments using a combination of a reinforcement learning algorithm and a neural network model. The main idea of the proposed algorithm is to provide the mobile robots the relative position and motion of the surrounding objects to the robots, and the safety constraints such as minimum distance from the robots to the obstacles, and a learning model. We then distribute the mobile robots into a dynamic environment. The robots will automatically learn to adapt to the environment by their own experienced through the trial-and-error interaction with the surrounding environment. When the learning phase is completed, the mobile robots equipped with our proposed framework are able to navigate autonomously and safely in the dynamic environment. The simulation results in a simulated environment shows that, our proposed navigation framework is capable of driving the mobile robots to avoid dynamic obstacles and catch up dynamic targets, providing the safety for the surrounding objects and the mobile robots.

Metrics

Metrics Loading ...

Downloads

Published

04-01-2018

How to Cite

[1]

X.-T. Truong, H. T. Dinh, and C. D. Nguyen, “An Efficient Navigation Framework for Autonomous Mobile Robots in Dynamic Environments using Learning Algorithms”, JCC, vol. 33, no. 2, p. 107–118, Jan. 2018.

Download Citation

Issue

Vol. 33 No. 2 (2017)

Section

Computer Science

License

1. We hereby assign copyright of our article (the Work) in all forms of media, whether now known or hereafter developed, to the Journal of Computer Science and Cybernetics. We understand that the Journal of Computer Science and Cybernetics will act on my/our behalf to publish, reproduce, distribute and transmit the Work.
2. This assignment of copyright to the Journal of Computer Science and Cybernetics is done so on the understanding that permission from the Journal of Computer Science and Cybernetics is not required for me/us to reproduce, republish or distribute copies of the Work in whole or in part. We will ensure that all such copies carry a notice of copyright ownership and reference to the original journal publication.
3. We warrant that the Work is our results and has not been published before in its current or a substantially similar form and is not under consideration for another publication, does not contain any unlawful statements and does not infringe any existing copyright.
4. We also warrant that We have obtained the necessary permission from the copyright holder/s to reproduce in the article any materials including tables, diagrams or photographs not owned by me/us.