Litcius/Paper detail

Modeling and simulation of a double DQN algorithm for dynamic obstacle avoidance in autonomous vehicle navigation

Sivayazi Kappagantula, Giriraj Mannayee

2024e-Prime - Advances in Electrical Engineering Electronics and Energy12 citationsDOIOpen Access PDF

Abstract

Developing an autonomous vehicle in safe navigated open environments through self-learning is a formidable challenge. So, in this paper, an autonomous navigation implementation for urban environments with dynamic obstacles using a double DQN algorithm is proposed. Furthermore, the vehicle is trained in varied training environments, explored neural network architectures, and fine-tuned action and reward functions to optimize its performance. In conclusion, the vehicle performance is steadily improved with each iteration of training, as evident from the upward trend in the average reward graph. These graphs depict the vehicle's learning progress in the scenario where it is trained to avoid dynamic obstacles. Finally, the proposed algorithm shows better performance relative to the conventional algorithms. The entire work is modelled and simulated in CARLA software.

Topics & Concepts

Obstacle avoidanceComputer scienceObstacleCollision avoidanceAlgorithmControl theory (sociology)SimulationArtificial intelligenceMobile robotRobotControl (management)Computer securityPolitical scienceCollisionLawRobotic Path Planning AlgorithmsAutonomous Vehicle Technology and SafetyTransportation and Mobility Innovations