Add to ORKGThe paper addresses methods of thrust distribution in a propulsion system for an unmanned underwater vehicle. It concentrates on finding an optimal thrust allocation for desired values of forces and moments acting on the vehicle. Special attention is paid to the unconstrained thrust allocation. The proposed methods are developed using a configuration matrix describing the layout of thrusters in the propulsion system. The paper includes algorithms of thrust distribution for both faultless work of the propulsion system and a failure of one of the thrusters. Illustrative examples are provided to demonstrate the effectiveness and correctness of the proposed methods
This paper extends our previous work [1] on the design of a thruster failure tolerant control scheme...
This paper extends our previous work [1] on the design of a thruster failure tolerant control scheme...
Thruster modeling and control is the core of underwater vehicle control and simulation, because it i...
A control allocation system implements a function that maps the desired control forces generated by ...
In this paper, the constrained thrust allocation problem is studied and solved for the class of over...
In this paper, the constrained thrust allocation problem is studied and solved for the class of over...
International audienceThis paper presents a synthesis method for the Autonomous Underwater Vehicle (...
In this paper, the constrained thrust allocation problem is studied and solved for the class of over...
The paper presents procedure for the optimal allocation of thrust for horizontal motion of underwate...
International audienceThis paper presents a synthesis method for the Autonomous Underwater Vehicle (...
This master thesis considers the thrust allocation problem of the Remotely Operated Vehicle Minerva,...
Abstract — The use of mono-directional thrusters on under-water vehicle poses interesting issues on ...
Although the concept of underwater vehicles has existed for a very long time, the technology within ...
International audienceThis paper presents a synthesis method for the Autonomous Underwater Vehicle (...
This paper extends our previous work [1] on the design of a thruster failure tolerant control scheme...
This paper extends our previous work [1] on the design of a thruster failure tolerant control scheme...
This paper extends our previous work [1] on the design of a thruster failure tolerant control scheme...
Thruster modeling and control is the core of underwater vehicle control and simulation, because it i...
A control allocation system implements a function that maps the desired control forces generated by ...
In this paper, the constrained thrust allocation problem is studied and solved for the class of over...
In this paper, the constrained thrust allocation problem is studied and solved for the class of over...
International audienceThis paper presents a synthesis method for the Autonomous Underwater Vehicle (...
In this paper, the constrained thrust allocation problem is studied and solved for the class of over...
The paper presents procedure for the optimal allocation of thrust for horizontal motion of underwate...
International audienceThis paper presents a synthesis method for the Autonomous Underwater Vehicle (...
This master thesis considers the thrust allocation problem of the Remotely Operated Vehicle Minerva,...
Abstract — The use of mono-directional thrusters on under-water vehicle poses interesting issues on ...
Although the concept of underwater vehicles has existed for a very long time, the technology within ...
International audienceThis paper presents a synthesis method for the Autonomous Underwater Vehicle (...
This paper extends our previous work [1] on the design of a thruster failure tolerant control scheme...
This paper extends our previous work [1] on the design of a thruster failure tolerant control scheme...
This paper extends our previous work [1] on the design of a thruster failure tolerant control scheme...
Thruster modeling and control is the core of underwater vehicle control and simulation, because it i...