Add to ORKGAbstract: This paper serves as a first study on the implementation of control strategies developed using a kinematic reduction onto test bed autonomous underwater vehicles (AUVs). The equations of motion are presented in the framework of differential geometry, including external dissipative forces, as a forced affine connection control system. We show that the hydrodynamic drag forces can be included in the affine connection, resulting in an affine connection control system. The definitions of kinematic reduction and decoupling vector field are thus extended from the ideal fluid scenario. Control strategies are computed using this new extension and are reformulated for implementation onto a test-bed AUV. We compare these geometrically compu...
Mechanical control systems have become a part of our everyday life. Systems such as automobiles, rob...
In this paper, the simulation results of a control and guidance strategy for homing and docking task...
(Communicated by Urszula Ledzewicz) Abstract. Designing trajectories for a submerged rigid body moti...
(Department of Mathematics) The proposed research is based on theoretical study and experiments whic...
This work focuses on the automatic generation of control inputs for the thrusters of Autonomous Unde...
The main focus of this paper is the motion planning problem for a deeply submerged rigid body. The e...
Abstract—This paper studies the practical but challenging problem of motion planning for a deeply su...
In this paper we consider the implementation of time and energy ecient trajectories onto a test-bed ...
Abstract — This paper presents a novel approach based on Jacobi shape theory and geometric reduction...
In this paper, we concern ourselves with finding a control strategy that minimizes energy consumptio...
This note investigates the motion control of an autonomous underwater vehicle (AUV). The AUV is mode...
Designing trajectories for a submerged rigid body motivates this paper. Two approaches are addressed...
This paper proposes an approach to the design of control laws for underwater vehicles that takes int...
Autonomous interaction with the underwater environment has increased the interest of scientists in t...
A novel strategy to design time invariant motion controllers for underactuated mobile systems is app...
Mechanical control systems have become a part of our everyday life. Systems such as automobiles, rob...
In this paper, the simulation results of a control and guidance strategy for homing and docking task...
(Communicated by Urszula Ledzewicz) Abstract. Designing trajectories for a submerged rigid body moti...
(Department of Mathematics) The proposed research is based on theoretical study and experiments whic...
This work focuses on the automatic generation of control inputs for the thrusters of Autonomous Unde...
The main focus of this paper is the motion planning problem for a deeply submerged rigid body. The e...
Abstract—This paper studies the practical but challenging problem of motion planning for a deeply su...
In this paper we consider the implementation of time and energy ecient trajectories onto a test-bed ...
Abstract — This paper presents a novel approach based on Jacobi shape theory and geometric reduction...
In this paper, we concern ourselves with finding a control strategy that minimizes energy consumptio...
This note investigates the motion control of an autonomous underwater vehicle (AUV). The AUV is mode...
Designing trajectories for a submerged rigid body motivates this paper. Two approaches are addressed...
This paper proposes an approach to the design of control laws for underwater vehicles that takes int...
Autonomous interaction with the underwater environment has increased the interest of scientists in t...
A novel strategy to design time invariant motion controllers for underactuated mobile systems is app...
Mechanical control systems have become a part of our everyday life. Systems such as automobiles, rob...
In this paper, the simulation results of a control and guidance strategy for homing and docking task...
(Communicated by Urszula Ledzewicz) Abstract. Designing trajectories for a submerged rigid body moti...