Loading and unloading rolling cargo in roll-on/roll-off are important and very recurrent operations in maritime logistics. In this paper, we apply state-of-the-art deep reinforcement learning algorithms to automate these operations in a complex and real environment. The objective is to teach an autonomous tug master to manage rolling cargo and perform loading and unloading operations while avoiding collisions with static and dynamic obstacles along the way. The artificial intelligence agent, representing the tug master, is trained and evaluated in a challenging environment based on the Unity3D learning framework, called the ML-Agents, and using proximal policy optimization. The agent is equipped with sensors for obstacle detection and is pr...
It is crucial for robots to autonomously steer in complex environments safely without colliding with...
In this article, we explore the feasibility of applying proximal policy optimization, a state-of-the...
Human experience is regarded as an indispensable part of artificial intelligence in the process of c...
This paper presents the idea of using machine learning techniques to simulate and demonstrate learni...
Ships are special machineries with large inertias and relatively weak driving forces. Simulating the...
Autonomous shipping is a heavily researched topic, and currently, there are large amounts of ship tr...
Sea freight is one of the most important ways for the transportation and distribution of coal and ot...
Improving the autopilot capability of ships is particularly important to ensure the safety of mariti...
In surface mining operations, the haul truck contributes the largest share to the overall operating ...
Path Following and Collision Avoidance, be it for unmanned surface vessels or other autonomous vehic...
This paper presents a cooperative object transportation technique using deep reinforcement learning ...
Maritime Autonomous Surface Ships (MASS) are becoming of interest to the maritime sector and are als...
In this paper we propose a Deep Reinforcement Learning approach to solve a multimodal transportation...
Programming robots to perform complex tasks is a very expensive job. Traditional path planning and c...
It is crucial for robots to autonomously steer in complex environments safely without colliding with...
It is crucial for robots to autonomously steer in complex environments safely without colliding with...
In this article, we explore the feasibility of applying proximal policy optimization, a state-of-the...
Human experience is regarded as an indispensable part of artificial intelligence in the process of c...
This paper presents the idea of using machine learning techniques to simulate and demonstrate learni...
Ships are special machineries with large inertias and relatively weak driving forces. Simulating the...
Autonomous shipping is a heavily researched topic, and currently, there are large amounts of ship tr...
Sea freight is one of the most important ways for the transportation and distribution of coal and ot...
Improving the autopilot capability of ships is particularly important to ensure the safety of mariti...
In surface mining operations, the haul truck contributes the largest share to the overall operating ...
Path Following and Collision Avoidance, be it for unmanned surface vessels or other autonomous vehic...
This paper presents a cooperative object transportation technique using deep reinforcement learning ...
Maritime Autonomous Surface Ships (MASS) are becoming of interest to the maritime sector and are als...
In this paper we propose a Deep Reinforcement Learning approach to solve a multimodal transportation...
Programming robots to perform complex tasks is a very expensive job. Traditional path planning and c...
It is crucial for robots to autonomously steer in complex environments safely without colliding with...
It is crucial for robots to autonomously steer in complex environments safely without colliding with...
In this article, we explore the feasibility of applying proximal policy optimization, a state-of-the...
Human experience is regarded as an indispensable part of artificial intelligence in the process of c...