Stabilizing and localizing the positioning systems autonomously in the areas without GPS accessibility is a difficult task. In this thesis we describe a methodology called Most Reliable Straight Line (MRSL) for stabilizing and positioning camera-based objects in 3-D space. The camera-captured images are used to identify easy-to-track points “interesting points” and track them on two consecutive images. The distance between each of interesting points on the two consecutive images are compared and one with the maximum length is assigned to MRSL, which is used to indicate the deviation from the original position. To correct this our trained algorithm is deployed to reduce the deviation by issuing relevant commands, this action is repeated unt...
Thesis (Master's)--University of Washington, 2018This paper describes a system for stabilizing an or...
In recent years, owing to the advance in image processing using deep learning, autonomous unmanned a...
The feasibility of using neural networks for camera localization and mobile robot control is investi...
In this study, we propose a method for recognizing the self-location of a drone flying in an indoor ...
The civil applications of Unmanned Aerial Vehicle (UAV) technology are constantly on a rise and the ...
dissertationThe goal of this dissertation is to enable an aerial robotic system (including an aircra...
In this paper, a new vision-based adaptive control algorithm is proposed for the positioning of a qu...
Tight unmanned aerial vehicle (UAV) autonomous missions such as formation flight (FF) and aerial ref...
Quadcopters are highly maneuverable and can provide an effective means for an agile dynamic position...
This work describes the implementation of a system remotely a controlling flying drone that is able ...
This thesis presents a complete vision-based navigation system that can plan and follow an obstacle-...
This paper describes implementation of the system control-ling a flying drone to stabilize and hold ...
The recent advancements in the field of Deep Learning have fostered solutions to many complex image ...
Nowadays, drones are expected to be used in several engineering and safety applications both indoors...
Today, different positioning applications such as location-based services and autonomous navigation ...
Thesis (Master's)--University of Washington, 2018This paper describes a system for stabilizing an or...
In recent years, owing to the advance in image processing using deep learning, autonomous unmanned a...
The feasibility of using neural networks for camera localization and mobile robot control is investi...
In this study, we propose a method for recognizing the self-location of a drone flying in an indoor ...
The civil applications of Unmanned Aerial Vehicle (UAV) technology are constantly on a rise and the ...
dissertationThe goal of this dissertation is to enable an aerial robotic system (including an aircra...
In this paper, a new vision-based adaptive control algorithm is proposed for the positioning of a qu...
Tight unmanned aerial vehicle (UAV) autonomous missions such as formation flight (FF) and aerial ref...
Quadcopters are highly maneuverable and can provide an effective means for an agile dynamic position...
This work describes the implementation of a system remotely a controlling flying drone that is able ...
This thesis presents a complete vision-based navigation system that can plan and follow an obstacle-...
This paper describes implementation of the system control-ling a flying drone to stabilize and hold ...
The recent advancements in the field of Deep Learning have fostered solutions to many complex image ...
Nowadays, drones are expected to be used in several engineering and safety applications both indoors...
Today, different positioning applications such as location-based services and autonomous navigation ...
Thesis (Master's)--University of Washington, 2018This paper describes a system for stabilizing an or...
In recent years, owing to the advance in image processing using deep learning, autonomous unmanned a...
The feasibility of using neural networks for camera localization and mobile robot control is investi...