Add to ORKG540-549In this paper, the heading control of an Autonomous Underwater Vehicle is improved in order to counteract the undesirable effect of the waves in the actuators system. Wave filter suggested is a linear passive observer and includes features like estimation of both the low frequency heading and heading rate of the vehicle from noisy measurement of an Inertial Measurement Unit, removing the oscillatory component. Matlab/Simulink tool is used to show the proposed solution into the control loop, its performance and the simulation with real data. The experimental results confirm the suitable filtering, the estimating properties of the observer and the navigation response expected, reducing control action and thus vibrations of th...
This article discusses various approaches to the control of autonomous underwater vehicles (AUVs) wi...
Abstract- An important capability for Autonomous Underwater Vehicles (AUVs) is station keeping. Stat...
A sliding mode heading control system is developed for overactuated, hover‐capable autonomous underw...
An autonomous underwater vehicle(AUV),is an untethered, self-propelled, unmanned, underwater vehicle...
International audienceDeep inside the ocean, the earth magnetic signalis one of the merely existing ...
The motion control of autonomous underwater vehicles (AUVs) is affected by waves near the ocean surf...
An output feedback controller with wave filter for regulation of nonlinear marine vehicles is derive...
High-accuracy underwater navigation is important in order to automate motion control of remotely ope...
Robust adaptive control of underwater vehicles in 6 DOF is analysed in the context of measurement no...
In this article, we have described the main components of a ship motion-control system and two parti...
Marine craft feedback control systems typically require estimates of position, velocity and heading ...
In this article, we have described the main components of a ship motion-control system and two parti...
To deal with the disturbances of wave and current in the heading control of Autonomous Underwater Ve...
This thesis considers two different state estimators for an unmanned surface vehicle owned by Mariti...
Marine Autonomous Vehicles, either Surface (ASV) or Underwater (AUV) are becom-ing the kingpin for o...
This article discusses various approaches to the control of autonomous underwater vehicles (AUVs) wi...
Abstract- An important capability for Autonomous Underwater Vehicles (AUVs) is station keeping. Stat...
A sliding mode heading control system is developed for overactuated, hover‐capable autonomous underw...
An autonomous underwater vehicle(AUV),is an untethered, self-propelled, unmanned, underwater vehicle...
International audienceDeep inside the ocean, the earth magnetic signalis one of the merely existing ...
The motion control of autonomous underwater vehicles (AUVs) is affected by waves near the ocean surf...
An output feedback controller with wave filter for regulation of nonlinear marine vehicles is derive...
High-accuracy underwater navigation is important in order to automate motion control of remotely ope...
Robust adaptive control of underwater vehicles in 6 DOF is analysed in the context of measurement no...
In this article, we have described the main components of a ship motion-control system and two parti...
Marine craft feedback control systems typically require estimates of position, velocity and heading ...
In this article, we have described the main components of a ship motion-control system and two parti...
To deal with the disturbances of wave and current in the heading control of Autonomous Underwater Ve...
This thesis considers two different state estimators for an unmanned surface vehicle owned by Mariti...
Marine Autonomous Vehicles, either Surface (ASV) or Underwater (AUV) are becom-ing the kingpin for o...
This article discusses various approaches to the control of autonomous underwater vehicles (AUVs) wi...
Abstract- An important capability for Autonomous Underwater Vehicles (AUVs) is station keeping. Stat...
A sliding mode heading control system is developed for overactuated, hover‐capable autonomous underw...