One of the key problems in accelerometry based gait analyses is that it may not be possible to attach an accelerometer to the lower trunk so that its axes are perfectly aligned to the axes of the subject. In this paper we will present an algorithm that was designed to virtually align the axes of the accelerometer to the axes of the subject during walking sections. This algorithm is based on a physically reasonable approach and built for measurements in unsupervised settings, where the test persons are applying the sensors by themselves. For evaluation purposes we conducted a study with 6 healthy subjects and measured their gait with a manually aligned and a skewed accelerometer attached to the subject's lower trunk. After applying the algor...
In the medical field, there is a need for small ambulatory sensor systems for measuring the kinemati...
This paper describes a novel functional body-to-sensor calibration procedure for inertial sensor-bas...
International audienceKinematic analysis is indispensable to understanding and characterizing human ...
This paper presents a novel calibration procedure as a simple, yet powerful, method to place and ali...
During running and walking the human centre of mass experiences a symmetric acceleration along the m...
Automatic sensor-to-foot alignment is required in clinical gait analysis using inertial sensors to a...
Quantitative assessment of human body movements includes the analysis of joint orientations. We prop...
A method is presented to estimate relative orientations of human body segments directly from 3D acce...
A new method for estimation of angles of leg segments and joints, which uses accelerometer arrays at...
Real-time registration of body segment angles is essential in artificial body position control. A ne...
The inertial measurement unit is popularly used as a wearable and flexible tool for human motion tra...
A new method of measuring joint angle using a combination of accelerometers and gyroscopes is presen...
In order to evaluate the impact of neuromuscular disorders affecting the upper extremities, the func...
A new method of estimating lower limbs orientations using a combination of accelerometers and gyrosc...
Inertial sensors can potentially assist clinical decision making in gait-related disorders. Methods ...
In the medical field, there is a need for small ambulatory sensor systems for measuring the kinemati...
This paper describes a novel functional body-to-sensor calibration procedure for inertial sensor-bas...
International audienceKinematic analysis is indispensable to understanding and characterizing human ...
This paper presents a novel calibration procedure as a simple, yet powerful, method to place and ali...
During running and walking the human centre of mass experiences a symmetric acceleration along the m...
Automatic sensor-to-foot alignment is required in clinical gait analysis using inertial sensors to a...
Quantitative assessment of human body movements includes the analysis of joint orientations. We prop...
A method is presented to estimate relative orientations of human body segments directly from 3D acce...
A new method for estimation of angles of leg segments and joints, which uses accelerometer arrays at...
Real-time registration of body segment angles is essential in artificial body position control. A ne...
The inertial measurement unit is popularly used as a wearable and flexible tool for human motion tra...
A new method of measuring joint angle using a combination of accelerometers and gyroscopes is presen...
In order to evaluate the impact of neuromuscular disorders affecting the upper extremities, the func...
A new method of estimating lower limbs orientations using a combination of accelerometers and gyrosc...
Inertial sensors can potentially assist clinical decision making in gait-related disorders. Methods ...
In the medical field, there is a need for small ambulatory sensor systems for measuring the kinemati...
This paper describes a novel functional body-to-sensor calibration procedure for inertial sensor-bas...
International audienceKinematic analysis is indispensable to understanding and characterizing human ...