Add to ORKGSensor-to-segment calibration is a crucial step in inertial motion tracking. When two segments are connected by a hinge joint, for example in human knee and finger joints as well as in many robotic limbs, then the joint axis vector must be identified in the intrinsic sensor coordinate systems. There exist methods that identify these coordinates by solving an optimization problem that is based on kinematic joint constraints, which involve either the measured accelerations or the measured angular rates. In the current paper we demonstrate that using only one of these constraints leads to inaccurate estimates at either fast or slow motions. We propose a novel method based on a cost function that combines both constraints. The restrictive assum...
Human motion capture is used for many purposes like sports training and rehabilitation. In the last ...
This paper aims to establish a post processing algorithm to estimate the upper limb motion, given a ...
We present a novel approach to estimate the relative sensor orientation from inertial sensors placed...
Sensor-to-segment calibration is a crucial step in inertial motion tracking. When two segments are c...
Inertial motion capture relies on accurate sensor-to-segment calibration. When two segments are conn...
In inertial motion tracking of kinematic chains, inertial measurement units (IMUs) are attached to e...
The ability to capture joint kinematics in outside-laboratory environments is clinically relevant. I...
The need to characterize normal and pathological human movement has consistently driven researchers ...
In inertial body tracking, the human body is commonly represented as a biomechanical model consistin...
Inertial measurement units are commonly used in a growing number of application fields to track or c...
In inertial human motion capture, a multitude of body segments are equipped with inertial measuremen...
Inertial sensors have gained relevance as wearable sensors to acquire the kinematics of human limbs ...
Real-time motion tracking of kinematic chains is a key prerequisite in the control of, e.g., robotic...
A new method of measuring joint angle using a combination of accelerometers and gyroscopes is presen...
Fitting a subject to a lower-limb exoskeleton requires precise estimation between the distances of t...
Human motion capture is used for many purposes like sports training and rehabilitation. In the last ...
This paper aims to establish a post processing algorithm to estimate the upper limb motion, given a ...
We present a novel approach to estimate the relative sensor orientation from inertial sensors placed...
Sensor-to-segment calibration is a crucial step in inertial motion tracking. When two segments are c...
Inertial motion capture relies on accurate sensor-to-segment calibration. When two segments are conn...
In inertial motion tracking of kinematic chains, inertial measurement units (IMUs) are attached to e...
The ability to capture joint kinematics in outside-laboratory environments is clinically relevant. I...
The need to characterize normal and pathological human movement has consistently driven researchers ...
In inertial body tracking, the human body is commonly represented as a biomechanical model consistin...
Inertial measurement units are commonly used in a growing number of application fields to track or c...
In inertial human motion capture, a multitude of body segments are equipped with inertial measuremen...
Inertial sensors have gained relevance as wearable sensors to acquire the kinematics of human limbs ...
Real-time motion tracking of kinematic chains is a key prerequisite in the control of, e.g., robotic...
A new method of measuring joint angle using a combination of accelerometers and gyroscopes is presen...
Fitting a subject to a lower-limb exoskeleton requires precise estimation between the distances of t...
Human motion capture is used for many purposes like sports training and rehabilitation. In the last ...
This paper aims to establish a post processing algorithm to estimate the upper limb motion, given a ...
We present a novel approach to estimate the relative sensor orientation from inertial sensors placed...