[[abstract]]Obtaining precise attitude information is essential for aircraft navigation and control. This paper presents the results of the attitude determination using an in-house designed low-cost MEMS-based flight information measurement unit. This study proposes a quaternion-based extended Kalman filter to integrate the traditional quaternion and gravitational force decomposition methods for attitude determination algorithm. The proposed extended Kalman filter utilizes the evolution of the four elements in the quaternion method for attitude determination as the dynamic model, with the four elements as the states of the filter. The attitude angles obtained from the gravity computations and from the electronic magnetic sensors are regarde...
In order to reduce the computational complexity, and improve the pitch/roll estimation accuracy of t...
Orientation estimation using low cost sensors is an important task for Micro Aerial Vehicles (MAVs) ...
This thesis is concerned with attitude estimation of small flying robots using low cost, small-sized...
Obtaining precise attitude information is essential for aircraft navigation and control. This paper ...
[[abstract]]Obtaining precise attitude information is essential for aircraft navigation and control....
[[abstract]]This paper presents the results of a quaternion-based unscented Kalman filtering for att...
Abstract — This paper presents a viable quaternion-based Adaptive Kalman Filter (q-AKF) that is desi...
Abstract: This paper presents an extended Kalman filter for real-time estimation of rigid body orie...
Aircraft attitude estimation requires fusing several sensors in order to recover both high and low f...
Accurate and real-time tracking of the orientation or attitude of rigid bodies has traditional appli...
The use of unmanned aerial vehicle (UAV) applications has grown rapidly over the past decade with th...
AbstractAimed at low accuracy of attitude determination because of using low-cost components which m...
This paper presents an implementation of the EKF (extended Kalman filtering) estimator for spacecraf...
Human body orientation estimation from microinertial/magnetic sensor units is highly important for s...
For the vector attitude determination, the traditional optimal algorithms which are based on quatern...
In order to reduce the computational complexity, and improve the pitch/roll estimation accuracy of t...
Orientation estimation using low cost sensors is an important task for Micro Aerial Vehicles (MAVs) ...
This thesis is concerned with attitude estimation of small flying robots using low cost, small-sized...
Obtaining precise attitude information is essential for aircraft navigation and control. This paper ...
[[abstract]]Obtaining precise attitude information is essential for aircraft navigation and control....
[[abstract]]This paper presents the results of a quaternion-based unscented Kalman filtering for att...
Abstract — This paper presents a viable quaternion-based Adaptive Kalman Filter (q-AKF) that is desi...
Abstract: This paper presents an extended Kalman filter for real-time estimation of rigid body orie...
Aircraft attitude estimation requires fusing several sensors in order to recover both high and low f...
Accurate and real-time tracking of the orientation or attitude of rigid bodies has traditional appli...
The use of unmanned aerial vehicle (UAV) applications has grown rapidly over the past decade with th...
AbstractAimed at low accuracy of attitude determination because of using low-cost components which m...
This paper presents an implementation of the EKF (extended Kalman filtering) estimator for spacecraf...
Human body orientation estimation from microinertial/magnetic sensor units is highly important for s...
For the vector attitude determination, the traditional optimal algorithms which are based on quatern...
In order to reduce the computational complexity, and improve the pitch/roll estimation accuracy of t...
Orientation estimation using low cost sensors is an important task for Micro Aerial Vehicles (MAVs) ...
This thesis is concerned with attitude estimation of small flying robots using low cost, small-sized...