Add to ORKGWhen underwater vehicles perform navigation close to the ocean floor, computer vision techniques can be applied to obtain quite accurate motion estimates. The most crucial step in the vision-based estimation of the vehicle motion consists on detecting matchings between image pairs. Here we propose the extensive use of texture analysis as a tool to ameliorate the correspondence problem in under-water images. Once a robust set of correspondences has been found, the three-dimensional motion of the vehicle can be computed with respect to the bed of the sea. Finally, motion estimates allow the construction of a map that could aid to the navigation of the robot.
The use of Autonomous Underwater Vehicles (AUVs) for underwater tasks is a promising robotic field. ...
This paper presents an approach to ameliorate the reliability of the correspondence points relating ...
Abstract: The use of Autonomous Underwater Vehicles (AUVs) for underwater tasks is a promising robot...
When underwater vehicles perform navigation close to the ocean floor, computer vision techniques can...
When underwater vehicles perform navigation close to the ocean floor, computer vision techniques can...
When underwater vehicles perform navigation close to the ocean floor, computer vision techniques can...
This thesis proposes a solution to the problem of estimating the motion of an Unmanned Underwater Ve...
This thesis proposes a solution to the problem of estimating the motion of an Unmanned Underwater Ve...
When underwater vehicles navigate close to the ocean floor, computer vision techniques can be applie...
When underwater vehicles navigate close to the ocean floor, computer vision techniques can be applie...
Mosaics have been commonly used as visual maps for undersea exploration and navigation. The position...
Mosaics have been commonly used as visual maps for undersea exploration and navigation. The position...
Robotic underwater vehicles are regularly performing vast optical surveys of the ocean floor. Scient...
This paper deals with the determination of moving areas in an image sequence from the variations in ...
The use of Autonomous Underwater Vehicles (AUVs) for underwater tasks is a promising robotic field. ...
The use of Autonomous Underwater Vehicles (AUVs) for underwater tasks is a promising robotic field. ...
This paper presents an approach to ameliorate the reliability of the correspondence points relating ...
Abstract: The use of Autonomous Underwater Vehicles (AUVs) for underwater tasks is a promising robot...
When underwater vehicles perform navigation close to the ocean floor, computer vision techniques can...
When underwater vehicles perform navigation close to the ocean floor, computer vision techniques can...
When underwater vehicles perform navigation close to the ocean floor, computer vision techniques can...
This thesis proposes a solution to the problem of estimating the motion of an Unmanned Underwater Ve...
This thesis proposes a solution to the problem of estimating the motion of an Unmanned Underwater Ve...
When underwater vehicles navigate close to the ocean floor, computer vision techniques can be applie...
When underwater vehicles navigate close to the ocean floor, computer vision techniques can be applie...
Mosaics have been commonly used as visual maps for undersea exploration and navigation. The position...
Mosaics have been commonly used as visual maps for undersea exploration and navigation. The position...
Robotic underwater vehicles are regularly performing vast optical surveys of the ocean floor. Scient...
This paper deals with the determination of moving areas in an image sequence from the variations in ...
The use of Autonomous Underwater Vehicles (AUVs) for underwater tasks is a promising robotic field. ...
The use of Autonomous Underwater Vehicles (AUVs) for underwater tasks is a promising robotic field. ...
This paper presents an approach to ameliorate the reliability of the correspondence points relating ...
Abstract: The use of Autonomous Underwater Vehicles (AUVs) for underwater tasks is a promising robot...