In this article, we explore the feasibility of applying proximal policy optimization, a state-of-the-art deep reinforcement learning algorithm for continuous control tasks, on the dual-objective problem of controlling an underactuated autonomous surface vehicle to follow an a priori known path while avoiding collisions with non-moving obstacles along the way. The AI agent, which is equipped with multiple rangefinder sensors for obstacle detection, is trained and evaluated in a challenging, stochastically generated simulation environment based on the OpenAI gym Python toolkit. Notably, the agent is provided with real-time insight into its own reward function, allowing it to dynamically adapt its guidance strategy. Depending on its strategy, ...
Autonomous vehicle navigation in an unknown dynamic environment is crucial for both supervised- and ...
Hydrobatic autonomous underwater vehicles (AUVs) can be efficient in speed and range as well as agil...
Unmanned surface vehicles (USVs) have been widely used in research and exploration, patrol, and defe...
Path Following and Collision Avoidance, be it for unmanned surface vessels or other autonomous vehic...
© 2022 Elsevier Ltd. All rights reserved. This is the accepted manuscript version of article which h...
Reinforcement Learning (RL) controllers have proved to effectively tackle the dual objectives of pat...
In a complex underwater environment, finding a viable, collision-free path for an autonomous underwa...
International audienceThe marine environment is a hostile setting for robotics. It is strongly unstr...
This paper presents a framework to alleviate the Deep Reinforcement Learning (DRL) training data spa...
Autonomous driving is one solution that can minimize and even prevent accidents. In autonomous drivi...
Reinforcement learning is a model-free technique to solve decision-making problems by learning the b...
Deep Reinforcement Learning methods for Underwater target Tracking This is a set of tools developed...
At the Australian National University we are developing an autonomous underwater vehicle for explora...
Improving the autopilot capability of ships is particularly important to ensure the safety of mariti...
Autonomous systems are becoming ubiquitous and gaining momentum within the marine sector. Since the ...
Autonomous vehicle navigation in an unknown dynamic environment is crucial for both supervised- and ...
Hydrobatic autonomous underwater vehicles (AUVs) can be efficient in speed and range as well as agil...
Unmanned surface vehicles (USVs) have been widely used in research and exploration, patrol, and defe...
Path Following and Collision Avoidance, be it for unmanned surface vessels or other autonomous vehic...
© 2022 Elsevier Ltd. All rights reserved. This is the accepted manuscript version of article which h...
Reinforcement Learning (RL) controllers have proved to effectively tackle the dual objectives of pat...
In a complex underwater environment, finding a viable, collision-free path for an autonomous underwa...
International audienceThe marine environment is a hostile setting for robotics. It is strongly unstr...
This paper presents a framework to alleviate the Deep Reinforcement Learning (DRL) training data spa...
Autonomous driving is one solution that can minimize and even prevent accidents. In autonomous drivi...
Reinforcement learning is a model-free technique to solve decision-making problems by learning the b...
Deep Reinforcement Learning methods for Underwater target Tracking This is a set of tools developed...
At the Australian National University we are developing an autonomous underwater vehicle for explora...
Improving the autopilot capability of ships is particularly important to ensure the safety of mariti...
Autonomous systems are becoming ubiquitous and gaining momentum within the marine sector. Since the ...
Autonomous vehicle navigation in an unknown dynamic environment is crucial for both supervised- and ...
Hydrobatic autonomous underwater vehicles (AUVs) can be efficient in speed and range as well as agil...
Unmanned surface vehicles (USVs) have been widely used in research and exploration, patrol, and defe...