In this paper, we evaluate a factorized quaternion approach for determining the arm orientation experimentally. The proposed approach uses tri-axial accelerometers with consideration of anatomical and sensor constraints. Experiments have been conducted using a wireless sensor network that comprises of tri-axial accelerometer sensor nodes attached to the arm. The results have been benchmarked with a commercial inertial measurement unit to validate the performance and advantages of this new system. Comparable performance in terms of accuracy has been obtained at a much reduced cost and lower power consumption
In this paper we present a method for recognising three fundamental movements of the human arm (reac...
Accurate and real-time tracking of the orientation or attitude of rigid bodies has traditional appli...
We investigate magnetic, angular rate, and gravity (MARG) sensor modules for deriving shoulder, elbo...
In this paper, we present a new factorized quaternion approach for determining the arm limbs' orient...
Measurement of human body motion has a myriad of applications ranging from gaming, rehabilitation, a...
Techniques that could monitor human motion precisely are useful in applications such as rehabilitati...
In this paper, a quaternion based extended Kalman filter (EKF) is developed for determining the orie...
We present a novel architecture for arm movement classification based on kinematic properties (joint...
Maximum 200 words.) Recently, a new impetus has been given to work to produce a whole body human/co...
This master thesis presents a method to reconstruct the wrist position and orientation (p&o) of a t...
The development of a wireless sensor network (WSN) that measures joint angles of the human body is r...
[[abstract]]Tri-axis accelerometers are widely used to detect physical activity. Three-axis accelero...
[[abstract]]Tri-axis accelerometers are widely used to detect physical activity. Three-axis accelero...
The use of Wireless Sensor Networks (WSN) for monitoring of arm and walking motion is considered in ...
A measurement technique that decreases the root mean square error (RMSE) of measurements of human-jo...
In this paper we present a method for recognising three fundamental movements of the human arm (reac...
Accurate and real-time tracking of the orientation or attitude of rigid bodies has traditional appli...
We investigate magnetic, angular rate, and gravity (MARG) sensor modules for deriving shoulder, elbo...
In this paper, we present a new factorized quaternion approach for determining the arm limbs' orient...
Measurement of human body motion has a myriad of applications ranging from gaming, rehabilitation, a...
Techniques that could monitor human motion precisely are useful in applications such as rehabilitati...
In this paper, a quaternion based extended Kalman filter (EKF) is developed for determining the orie...
We present a novel architecture for arm movement classification based on kinematic properties (joint...
Maximum 200 words.) Recently, a new impetus has been given to work to produce a whole body human/co...
This master thesis presents a method to reconstruct the wrist position and orientation (p&o) of a t...
The development of a wireless sensor network (WSN) that measures joint angles of the human body is r...
[[abstract]]Tri-axis accelerometers are widely used to detect physical activity. Three-axis accelero...
[[abstract]]Tri-axis accelerometers are widely used to detect physical activity. Three-axis accelero...
The use of Wireless Sensor Networks (WSN) for monitoring of arm and walking motion is considered in ...
A measurement technique that decreases the root mean square error (RMSE) of measurements of human-jo...
In this paper we present a method for recognising three fundamental movements of the human arm (reac...
Accurate and real-time tracking of the orientation or attitude of rigid bodies has traditional appli...
We investigate magnetic, angular rate, and gravity (MARG) sensor modules for deriving shoulder, elbo...