Abstract — In this paper we present a state estimation method based on an inertial measurement unit (IMU) and a planar laser range finder suitable for use in real-time on a fixed-wing micro air vehicle (MAV). The algorithm is capable of maintaing accurate state estimates during aggressive flight in unstructured 3D environments without the use of an external positioning system. Our localization algorithm is based on an extension of the Gaussian Particle Filter. We partition the state according to measurement independence relationships and then calculate a pseudo-linear update which allows us to use 20x fewer particles than a naive implementation to achieve similar accuracy in the state estimate. We also propose a multi-step forward fitting m...
High-speed flight in GPS-denied environments is currently an important frontier in the research on a...
The realization of vision-based, autonomousflight formicro air vehicles presents numerous technical ...
Accurate indoor localization is essential for autonomous robotic agents to perform tasks ranging fro...
The most attractive and attention seeking topic of aerospace world is Micro Air Vehicle (MAV) which ...
This paper presents a non-linear state observer-based integrated navigation scheme for estimating th...
In this paper, we describe trajectory planning and state estimation algorithms for aggressive flight...
The paper has supplementary downloadable material available at http://ieeexplore.ieee....
Micro aerial vehicles (MAVs) are ideal platforms for surveillance and search and rescue in confined ...
Micro aerial vehicles (MAVs) are ideal platforms for surveillance and search and rescue in confined ...
Multi-rotor Micro Aerial Vehicles (MAV) have become popular robotic platforms in the last decade due...
State estimation is the most critical capability for MAV (Micro-Aerial Vehicle) localization, autono...
Multi-rotor Micro Aerial Vehicles (MAV) have become popular robotic platforms in the last decade due...
This thesis is motivated by the problem of fixed-wing flight through obstacles using only on-board s...
The need for accurate and reliable navigation techniques for micro air vehicles plays an important p...
The combination of visual and inertial sensors for state estimation has recently found wide echo in ...
High-speed flight in GPS-denied environments is currently an important frontier in the research on a...
The realization of vision-based, autonomousflight formicro air vehicles presents numerous technical ...
Accurate indoor localization is essential for autonomous robotic agents to perform tasks ranging fro...
The most attractive and attention seeking topic of aerospace world is Micro Air Vehicle (MAV) which ...
This paper presents a non-linear state observer-based integrated navigation scheme for estimating th...
In this paper, we describe trajectory planning and state estimation algorithms for aggressive flight...
The paper has supplementary downloadable material available at http://ieeexplore.ieee....
Micro aerial vehicles (MAVs) are ideal platforms for surveillance and search and rescue in confined ...
Micro aerial vehicles (MAVs) are ideal platforms for surveillance and search and rescue in confined ...
Multi-rotor Micro Aerial Vehicles (MAV) have become popular robotic platforms in the last decade due...
State estimation is the most critical capability for MAV (Micro-Aerial Vehicle) localization, autono...
Multi-rotor Micro Aerial Vehicles (MAV) have become popular robotic platforms in the last decade due...
This thesis is motivated by the problem of fixed-wing flight through obstacles using only on-board s...
The need for accurate and reliable navigation techniques for micro air vehicles plays an important p...
The combination of visual and inertial sensors for state estimation has recently found wide echo in ...
High-speed flight in GPS-denied environments is currently an important frontier in the research on a...
The realization of vision-based, autonomousflight formicro air vehicles presents numerous technical ...
Accurate indoor localization is essential for autonomous robotic agents to perform tasks ranging fro...