This work presents two schemes of measuring the linear and angular kinematics of a rigid body using a kinematically redundant array of triple-axis accelerometers with potential applications in biomechanics. A novel angular velocity estimation algorithm is proposed and evaluated that can compensate for angular velocity errors using measurements of the direction of gravity. Analysis and discussion of optimal sensor array characteristics are provided. A damped 2 axis pendulum was used to excite all 6 DoF of the a suspended accelerometer array through determined complex motion and is the basis of both simulation and experimental studies. The relationship between accuracy and sensor redundancy is investigated for arrays of up to 100 triple axis ...
A portable motion analysis system that can accurately measure body movement kinematics and kinetics ...
OBJECTIVE The aim of this article is to review systematically and appraise critically the literature...
This paper describes a formal approach to derive displacement from a 3 axis accelerometer. It forms ...
This work presents two schemes of measuring the linear and angular kinematics of a rigid body using ...
Small inertial sensors like accelerometers and gyroscopes are more and more used in ambulatory motio...
Accelerometer arrays are used in biomechanics and other fields to estimate the rigid-body accelerati...
none3noIn human movement modeling, the problem of multi-link kinematics estimation by means of iner...
A gyroscope-free inertial measurement unit (GF-IMU) detects the relative motion of a body based on a...
This paper shows the results of a set of experiments aimed t at calibrating and validating an inerti...
[[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...
Advances in sensor-based technologies have led to the widespread use of wearable sensors, like accel...
In studies of human movement, inertial sensors (accelerometers and gyroscopes) are gaining attentio...
Motion estimation using inertial sensors is today used in a wide range of applications, from aircraf...
The dynamics of the human body has generated considerable recent research interest among scientist ...
A portable motion analysis system that can accurately measure body movement kinematics and kinetics ...
OBJECTIVE The aim of this article is to review systematically and appraise critically the literature...
This paper describes a formal approach to derive displacement from a 3 axis accelerometer. It forms ...
This work presents two schemes of measuring the linear and angular kinematics of a rigid body using ...
Small inertial sensors like accelerometers and gyroscopes are more and more used in ambulatory motio...
Accelerometer arrays are used in biomechanics and other fields to estimate the rigid-body accelerati...
none3noIn human movement modeling, the problem of multi-link kinematics estimation by means of iner...
A gyroscope-free inertial measurement unit (GF-IMU) detects the relative motion of a body based on a...
This paper shows the results of a set of experiments aimed t at calibrating and validating an inerti...
[[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...
Advances in sensor-based technologies have led to the widespread use of wearable sensors, like accel...
In studies of human movement, inertial sensors (accelerometers and gyroscopes) are gaining attentio...
Motion estimation using inertial sensors is today used in a wide range of applications, from aircraf...
The dynamics of the human body has generated considerable recent research interest among scientist ...
A portable motion analysis system that can accurately measure body movement kinematics and kinetics ...
OBJECTIVE The aim of this article is to review systematically and appraise critically the literature...
This paper describes a formal approach to derive displacement from a 3 axis accelerometer. It forms ...