This paper describes the deployment, integration, and demonstration of a Smartphone Video Guidance Sensor (SVGS) as a novel technology for autonomous 6-DOF proximity maneuvers and precision landing of a quadcopter drone. The proposed approach uses a vision-based photogrammetric position and attitude sensor (SVGS) to estimate the position of a landing target after video capture. A visual inertial odometry sensor (VIO) is used to provide position estimates of the UAV in a ground coordinate system during flight on a GPS-denied environment. The integration of both SVGS and VIO sensors enables the accurate updating of position setpoints during landing, providing improved performance compared with VIO-only landing, as shown in landing experiments...
We describe our work on multirotor UAVs and focus on our method for autonomous landing and position ...
This thesis presents how machine vision can be used in the automatic landing process of an unmanned ...
Small vertical take-off and landing (VTOL) Unmanned Aerial Vehicles (UAVs) are playing more and more...
Autonomous landing of an unmanned aerial vehicle or a drone is a challenging problem for the robotic...
Context: Current smartphone models have a very interesting set of sensors such as cameras, IMUs, GPS...
The Smartphone Video Guidance Sensor (SVGS) is a miniature, self-contained autonomous rendezvous and...
There is a strong need for Unmanned Aerial Systems (UAS) that can navigate autonomously using visual...
The landing task is fundamental to Micro air vehicles (MAVs) when attempting to land in an unpredict...
Smartphone can not only be operated under 3G network environment anytime and anyplace but also cost ...
Unmanned Aerial Vehicle (UAV) commonly known as a drone, is an aircraft without a human pilot on boa...
In this thesis we have implemented and developed the necessary hardware and software solutions to tr...
Fault occurrence in the quadcopter is very common during operation in the air. This paper presents a...
This paper proposes a novel infrared camera array guidance system with capability to track and provi...
In this paper a solution to UAV reduced endurance and autonomous flight is proposed. With a complete...
A GPS and camera-based landing system for navigating a multirotor UAV from a set of arbitrary GPS co...
We describe our work on multirotor UAVs and focus on our method for autonomous landing and position ...
This thesis presents how machine vision can be used in the automatic landing process of an unmanned ...
Small vertical take-off and landing (VTOL) Unmanned Aerial Vehicles (UAVs) are playing more and more...
Autonomous landing of an unmanned aerial vehicle or a drone is a challenging problem for the robotic...
Context: Current smartphone models have a very interesting set of sensors such as cameras, IMUs, GPS...
The Smartphone Video Guidance Sensor (SVGS) is a miniature, self-contained autonomous rendezvous and...
There is a strong need for Unmanned Aerial Systems (UAS) that can navigate autonomously using visual...
The landing task is fundamental to Micro air vehicles (MAVs) when attempting to land in an unpredict...
Smartphone can not only be operated under 3G network environment anytime and anyplace but also cost ...
Unmanned Aerial Vehicle (UAV) commonly known as a drone, is an aircraft without a human pilot on boa...
In this thesis we have implemented and developed the necessary hardware and software solutions to tr...
Fault occurrence in the quadcopter is very common during operation in the air. This paper presents a...
This paper proposes a novel infrared camera array guidance system with capability to track and provi...
In this paper a solution to UAV reduced endurance and autonomous flight is proposed. With a complete...
A GPS and camera-based landing system for navigating a multirotor UAV from a set of arbitrary GPS co...
We describe our work on multirotor UAVs and focus on our method for autonomous landing and position ...
This thesis presents how machine vision can be used in the automatic landing process of an unmanned ...
Small vertical take-off and landing (VTOL) Unmanned Aerial Vehicles (UAVs) are playing more and more...