Reinforcement-learning robotic sailboats: simulator and preliminary results

Eduardo Charles Vasconcellos; Ronald M Sampaio; André P D Araújo; Esteban Walter Gonzales Clua; Philippe Preux; Raphael Guerra; Luiz M G Gonçalves; Luis Martí; Hernan Lira; Nayat Sanchez-Pi

Conference Papers Year : 2023

Reinforcement-learning robotic sailboats: simulator and preliminary results

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Eduardo Charles Vasconcellos

Function : Author
PersonId : 1270532

Universidade Federal Fluminense [Rio de Janeiro]

Inria Lille - Nord Europe

Ronald M Sampaio

Function : Author

André P D Araújo

Function : Author
PersonId : 1270531

Universidade Federal Fluminense [Rio de Janeiro]

Inria Lille - Nord Europe

Esteban Walter Gonzales Clua

Function : Author
PersonId : 1011751

Fluminense Federal University [Niterói]

Philippe Preux

Function : Author
PersonId : 5488
IdHAL : preux-philippe
IdRef : 059896353

Scool

Centre de Recherche en Informatique, Signal et Automatique de Lille - UMR 9189

Université de Lille

Raphael Guerra

Function : Author
PersonId : 1328117

Luiz M G Gonçalves

Function : Author

Universidade Federal do Rio Grande do Norte [Natal]

Luis Martí

Function : Author
PersonId : 746824
IdHAL : luis-marti
ORCID : 0000-0003-2789-5062

Inria Chile

Hernan Lira

Function : Author
PersonId : 1102200

Inria Chile

Nayat Sanchez-Pi

Function : Author

Inria Chile

Abstract

This work focuses on the main challenges and problems in developing a virtual oceanic environment reproducing real experiments using Unmanned Surface Vehicles (USV) digital twins. We introduce the key features for building virtual worlds, considering using Reinforcement Learning (RL) agents for autonomous navigation and control. With this in mind, the main problems concern the definition of the simulation equations (physics and mathematics), their effective implementation, and how to include strategies for simulated control and perception (sensors) to be used with RL. We present the modeling, implementation steps, and challenges required to create a functional digital twin based on a real robotic sailing vessel. The application is immediate for developing navigation algorithms based on RL to be applied on real boats.

Keywords

artificial intelligence, reinforcement learning, unmanned surface vessel

Domains

Artificial Intelligence [cs.AI] Machine Learning [cs.LG] Modeling and Simulation Robotics [cs.RO]

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neurips_wrl2023.pdf (3.18 Mo)

Origin : Files produced by the author(s)

Luis Martí : Connect in order to contact the contributor

https://inria.hal.science/hal-04395990

Submitted on : Monday, January 15, 2024-6:06:54 PM

Last modification on : Wednesday, March 20, 2024-9:11:19 AM

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hal-04395990 , version 1 (15-01-2024)

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HAL Id : hal-04395990 , version 1

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Eduardo Charles Vasconcellos, Ronald M Sampaio, André P D Araújo, Esteban Walter Gonzales Clua, Philippe Preux, et al.. Reinforcement-learning robotic sailboats: simulator and preliminary results. NeurIPS 2023 Workshop on Robot Learning Workshop: Pretraining, Fine-Tuning, and Generalization with Large Scale Models, Dec 2023, New Orelans, United States. ⟨hal-04395990⟩

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Reinforcement-learning robotic sailboats: simulator and preliminary results

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