Human body orientation estimation from microinertial/magnetic sensor units is highly important for synthetic environments, robotics, and other human-computer interaction applications. In practice, the main challenge is how to deal with linear acceleration interference and magnetic disturbance which always cause significant attitude-estimation errors. In this paper, we present a novel quaternion-based Kalman filter with vector selection scheme for accurate human body orientation estimation using an inertial/magnetic sensor unit. In the proposed algorithm, the gyroscope measurement is used as an input to construct the linear process equation, and the accelerometer and magnetometer measurements are manipulated to establish the linear pseudomea...
Abstract — This paper presents a viable quaternion-based Adaptive Kalman Filter (q-AKF) that is desi...
International audienceThis paper addresses the problem of rigid body orientation tracking. A nonline...
The use of unmanned aerial vehicle (UAV) applications has grown rapidly over the past decade with th...
In this paper, a quaternion based extended Kalman filter (EKF) is developed for determining the orie...
Abstract—Real-time tracking of human body motion is an im-portant technology in synthetic environmen...
Abstract: This paper presents an extended Kalman filter for real-time estimation of rigid body orie...
This paper deals with orientation estimation using miniature inertial/magnetic sensor comprised of a...
Accurate and real-time tracking of the orientation or attitude of rigid bodies has traditional appli...
Abstract- Micro-sensor human motion capture has shown its potentials because of its ubiquity and low...
An orientation estimation algorithm is presented. This algorithm is based on the Extended Kalman Fil...
[[abstract]]This paper presents the results of a quaternion-based unscented Kalman filtering for att...
Obtaining precise attitude information is essential for aircraft navigation and control. This paper ...
This paper describes a complementary Kalman filter design to estimate orientation of human body segm...
[[abstract]]Obtaining precise attitude information is essential for aircraft navigation and control....
Orientation estimation using low cost sensors is an important task for Micro Aerial Vehicles (MAVs) ...
Abstract — This paper presents a viable quaternion-based Adaptive Kalman Filter (q-AKF) that is desi...
International audienceThis paper addresses the problem of rigid body orientation tracking. A nonline...
The use of unmanned aerial vehicle (UAV) applications has grown rapidly over the past decade with th...
In this paper, a quaternion based extended Kalman filter (EKF) is developed for determining the orie...
Abstract—Real-time tracking of human body motion is an im-portant technology in synthetic environmen...
Abstract: This paper presents an extended Kalman filter for real-time estimation of rigid body orie...
This paper deals with orientation estimation using miniature inertial/magnetic sensor comprised of a...
Accurate and real-time tracking of the orientation or attitude of rigid bodies has traditional appli...
Abstract- Micro-sensor human motion capture has shown its potentials because of its ubiquity and low...
An orientation estimation algorithm is presented. This algorithm is based on the Extended Kalman Fil...
[[abstract]]This paper presents the results of a quaternion-based unscented Kalman filtering for att...
Obtaining precise attitude information is essential for aircraft navigation and control. This paper ...
This paper describes a complementary Kalman filter design to estimate orientation of human body segm...
[[abstract]]Obtaining precise attitude information is essential for aircraft navigation and control....
Orientation estimation using low cost sensors is an important task for Micro Aerial Vehicles (MAVs) ...
Abstract — This paper presents a viable quaternion-based Adaptive Kalman Filter (q-AKF) that is desi...
International audienceThis paper addresses the problem of rigid body orientation tracking. A nonline...
The use of unmanned aerial vehicle (UAV) applications has grown rapidly over the past decade with th...