Add to ORKGAbstract: A sailboat robot is a highly nonlinear system but which control is relatively easy, however. Indeed, its mechanical design is the result of an evolution over thousands of years. This paper focuses on a control strategy which remains simple, with few parameters to adjust and meaningful with respect to the intuition. A test on the sailboat robot called Vaimos is presented to illustrate the performance of the regulator with a sea experiment. Moreover, the HardWare In the Loop (HWIL) methodology has been used for the validation of the embedded system. Last point is that this HWIL simulation compared to the real experiment is also a confirmation that the dynamic model used for control is correct
During long time missions with autonomous sailboats electrical power is a limited resource. When mak...
Traditionally, model scale tests of ships are carried out without taking into account the dynamics o...
<p>Traditionally, model scale tests of ships are carried out without taking into account the dynamic...
International audienceA sailboat robot is a highly nonlinear system but which control is relatively ...
International audienceA sailboat robot is a highly nonlinear system but which control is relatively ...
International audienceA sailboat is a strongly non-linear system that however has been proven to be ...
International audienceA sailboat is a strongly non-linear system that however has been proven to be ...
International audienceA sailboat is a strongly non-linear system that however has been proven to be ...
This article discusses a control architecture for autonomous sailboat navigation and also presents a...
The design of a sailing robot controller is addressed. Based on a simulation model, and validated by...
The Automated Sailing Robots (ASR) concept is receiving an increasing interest among robotic researc...
This thesis is divided into five parts. In the first part, a general mathematical model of a sailboa...
This thesis is divided into five parts. In the first part, a general mathematical model of a sailboa...
This paper presents the modeling and control of robotic boat. With the combination of mathematical a...
An experimental validation of a robust controller with the VAIMOS autonomous sailboa
During long time missions with autonomous sailboats electrical power is a limited resource. When mak...
Traditionally, model scale tests of ships are carried out without taking into account the dynamics o...
<p>Traditionally, model scale tests of ships are carried out without taking into account the dynamic...
International audienceA sailboat robot is a highly nonlinear system but which control is relatively ...
International audienceA sailboat robot is a highly nonlinear system but which control is relatively ...
International audienceA sailboat is a strongly non-linear system that however has been proven to be ...
International audienceA sailboat is a strongly non-linear system that however has been proven to be ...
International audienceA sailboat is a strongly non-linear system that however has been proven to be ...
This article discusses a control architecture for autonomous sailboat navigation and also presents a...
The design of a sailing robot controller is addressed. Based on a simulation model, and validated by...
The Automated Sailing Robots (ASR) concept is receiving an increasing interest among robotic researc...
This thesis is divided into five parts. In the first part, a general mathematical model of a sailboa...
This thesis is divided into five parts. In the first part, a general mathematical model of a sailboa...
This paper presents the modeling and control of robotic boat. With the combination of mathematical a...
An experimental validation of a robust controller with the VAIMOS autonomous sailboa
During long time missions with autonomous sailboats electrical power is a limited resource. When mak...
Traditionally, model scale tests of ships are carried out without taking into account the dynamics o...
<p>Traditionally, model scale tests of ships are carried out without taking into account the dynamic...