Add to ORKGThis paper presents a Fuzzy Control application for a landing task of an Unmanned Aerial Vehicle, using the 3D-position estimation based on visual tracking of piecewise planar objects. This application allows the UAV to land on scenarios in which it is only possible to use visual information to obtain the position of the vehicle. The use of the homography permits a realtime estimation of the UAV's pose with respect to a helipad using a monocular camera. Fuzzy Logic allows the definition of a model-free control system of the UAV. The Fuzzy controller analyzes the visual information to generate altitude commands for the UAV to develop the landing task
This paper presents an implementa- tion of three Fuzzy Logic controllers working in parallel onboard...
This article presents a visual servoing system to follow a 3D moving object by a Micro Unmanned Aeri...
This article presents a visual servoing system to follow a 3D moving object by a Micro Unmanned Aeri...
peer reviewedThis paper presents a Fuzzy Control application for a landing task of an Unmanned Aeria...
for a landing task of an Unmanned Aerial Vehicle, using the 3D-position estimation based on visual t...
peer reviewedThis paper presents a vision based autonomous landing control approach for unmanned ae...
This paper presents a vision based autonomous landing control approach for unmanned aerial vehicles ...
peer reviewedThis paper presents a vision based autonomous landing control approach for unmanned ae...
This paper is focused on the design of a vision based control approach for the autonomous landing ta...
This paper presents an implementa- tion of three Fuzzy Logic controllers working in parallel onboard...
peer reviewedThis paper is focused on the design of a vision based control approach for the autonom...
This paper proposed the use of vision based Fuzzy control approaches for autonomous navigation tasks...
peer reviewedThis paper proposed the use of vision based Fuzzy control approaches for autonomous na...
This paper presents an implementa- tion of three Fuzzy Logic controllers working in parallel onboard...
This paper presents an implementa- tion of three Fuzzy Logic controllers working in parallel onboard...
This paper presents an implementa- tion of three Fuzzy Logic controllers working in parallel onboard...
This article presents a visual servoing system to follow a 3D moving object by a Micro Unmanned Aeri...
This article presents a visual servoing system to follow a 3D moving object by a Micro Unmanned Aeri...
peer reviewedThis paper presents a Fuzzy Control application for a landing task of an Unmanned Aeria...
for a landing task of an Unmanned Aerial Vehicle, using the 3D-position estimation based on visual t...
peer reviewedThis paper presents a vision based autonomous landing control approach for unmanned ae...
This paper presents a vision based autonomous landing control approach for unmanned aerial vehicles ...
peer reviewedThis paper presents a vision based autonomous landing control approach for unmanned ae...
This paper is focused on the design of a vision based control approach for the autonomous landing ta...
This paper presents an implementa- tion of three Fuzzy Logic controllers working in parallel onboard...
peer reviewedThis paper is focused on the design of a vision based control approach for the autonom...
This paper proposed the use of vision based Fuzzy control approaches for autonomous navigation tasks...
peer reviewedThis paper proposed the use of vision based Fuzzy control approaches for autonomous na...
This paper presents an implementa- tion of three Fuzzy Logic controllers working in parallel onboard...
This paper presents an implementa- tion of three Fuzzy Logic controllers working in parallel onboard...
This paper presents an implementa- tion of three Fuzzy Logic controllers working in parallel onboard...
This article presents a visual servoing system to follow a 3D moving object by a Micro Unmanned Aeri...
This article presents a visual servoing system to follow a 3D moving object by a Micro Unmanned Aeri...