[[abstract]]In this letter, we present a real-time orientation estimation and motion tracking scheme using interacting multiple model (IMM) based Kalman filtering method. Two nonlinear filters, quaternion-based extended Kalman filter (QBEKF) and gyroscope-based extended Kalman filter (GBEKF) are utilized in the proposed IMM-based orientation estimator for sensor motion state estimation. In the QBEKF, measurements from gyroscope, accelerometer and magnetometer are processed; while in the GBEKF, sole measurements from gyroscope are processed. The interacting multiple model algorithm is used for fusing the estimated states via adaptive model weighting. Simulation results validate the proposed design concept, and the scheme is capable of reduci...
Optical tracking systems (OTS) can provide high position accuracy over a large workspace. However, t...
International audienceThis paper addresses the problem of rigid body orientation tracking. A nonline...
With the recent technological advancement in low-cost wireless inertial motion trackers, measuring t...
Abstract- Micro-sensor human motion capture has shown its potentials because of its ubiquity and low...
Orientation estimation can be executed by comparing the output of a 3D accelerometer and a 3D magnet...
Human body orientation estimation from microinertial/magnetic sensor units is highly important for s...
To provide a long-time reliable orientation, sensor fusion technologies are widely used to integrate...
An orientation estimation algorithm is presented. This algorithm is based on the Extended Kalman Fil...
Over the last years, inertial sensing has proven to be a suitable ambulatory alternative to traditio...
Abstract—Real-time tracking of human body motion is an im-portant technology in synthetic environmen...
In recent years, micro-machined electromechanical system (MEMS) inertial sensors (3D accelerometers ...
In this paper, a quaternion based extended Kalman filter (EKF) is developed for determining the orie...
Abstract: This paper presents an extended Kalman filter for real-time estimation of rigid body orie...
Localization in outdoor environments is widespread, providing improved functionality and benefits fo...
This paper presents three iterative methods for orientation estimation. The first two are based on i...
Optical tracking systems (OTS) can provide high position accuracy over a large workspace. However, t...
International audienceThis paper addresses the problem of rigid body orientation tracking. A nonline...
With the recent technological advancement in low-cost wireless inertial motion trackers, measuring t...
Abstract- Micro-sensor human motion capture has shown its potentials because of its ubiquity and low...
Orientation estimation can be executed by comparing the output of a 3D accelerometer and a 3D magnet...
Human body orientation estimation from microinertial/magnetic sensor units is highly important for s...
To provide a long-time reliable orientation, sensor fusion technologies are widely used to integrate...
An orientation estimation algorithm is presented. This algorithm is based on the Extended Kalman Fil...
Over the last years, inertial sensing has proven to be a suitable ambulatory alternative to traditio...
Abstract—Real-time tracking of human body motion is an im-portant technology in synthetic environmen...
In recent years, micro-machined electromechanical system (MEMS) inertial sensors (3D accelerometers ...
In this paper, a quaternion based extended Kalman filter (EKF) is developed for determining the orie...
Abstract: This paper presents an extended Kalman filter for real-time estimation of rigid body orie...
Localization in outdoor environments is widespread, providing improved functionality and benefits fo...
This paper presents three iterative methods for orientation estimation. The first two are based on i...
Optical tracking systems (OTS) can provide high position accuracy over a large workspace. However, t...
International audienceThis paper addresses the problem of rigid body orientation tracking. A nonline...
With the recent technological advancement in low-cost wireless inertial motion trackers, measuring t...