Measurement of gait parameters can provide important information about a person's health and safety. Automatic analysis of gait using kinematic sensors is a newly emerging area of research. We describe a new way to detect walking, and measure gait cadence, by using time-frequency signal processing together with spectrogram analysis of signals from a chest-worn inertial measurement unit (IMU). A pilot study of 11 participants suggests that this method is able to distinguish between walk and non-walk activities with up to 88.70% sensitivity and 97.70% specificity. Limitations of the method include instability associated with manual fine-tuning of local and global threshold levels. © 2012 IEEE
Human Gait analysis is useful in many cases, such as, detecting the underlying cause of an abnormal ...
Healthy gait requires a balance between various neuro-physiological systems and is considered an imp...
Clinically oriented Inertial Measurement Unit sensor systems consisting of several sensors tethered ...
Measurement of gait parameters can provide important information about a person's health and safety....
Automatic analysis of gait using kinematic sensors is a newly emerging area of research. We describe...
Abstract: Mobile gait analysis using wearable inertial measurement units (IMUs) provides valuable in...
The problem of joint classification of gait and device mode from inertial measurement units (IMU) me...
Gait analysis has traditionally been carried out in a laboratory environment using expensive equipme...
Gait analysis has traditionally been carried out in a laboratory environment using expensive equipme...
AbstractWearable sensors technology based on inertial measurement units (IMUs) is leading the transi...
Gait analysis has traditionally been carried out in a laboratory environment using expensive equipme...
Gait analysis can convey important information about one’s physical and cognitive condition. Wearabl...
Human gait analysis is a standard laboratory procedure utilized in many clinical facilities for the ...
Walking is a central activity of daily life, and there is an increasing demand for objective measure...
Walking is the most common form of human locomotion and the systematic study thereof is known as gai...
Human Gait analysis is useful in many cases, such as, detecting the underlying cause of an abnormal ...
Healthy gait requires a balance between various neuro-physiological systems and is considered an imp...
Clinically oriented Inertial Measurement Unit sensor systems consisting of several sensors tethered ...
Measurement of gait parameters can provide important information about a person's health and safety....
Automatic analysis of gait using kinematic sensors is a newly emerging area of research. We describe...
Abstract: Mobile gait analysis using wearable inertial measurement units (IMUs) provides valuable in...
The problem of joint classification of gait and device mode from inertial measurement units (IMU) me...
Gait analysis has traditionally been carried out in a laboratory environment using expensive equipme...
Gait analysis has traditionally been carried out in a laboratory environment using expensive equipme...
AbstractWearable sensors technology based on inertial measurement units (IMUs) is leading the transi...
Gait analysis has traditionally been carried out in a laboratory environment using expensive equipme...
Gait analysis can convey important information about one’s physical and cognitive condition. Wearabl...
Human gait analysis is a standard laboratory procedure utilized in many clinical facilities for the ...
Walking is a central activity of daily life, and there is an increasing demand for objective measure...
Walking is the most common form of human locomotion and the systematic study thereof is known as gai...
Human Gait analysis is useful in many cases, such as, detecting the underlying cause of an abnormal ...
Healthy gait requires a balance between various neuro-physiological systems and is considered an imp...
Clinically oriented Inertial Measurement Unit sensor systems consisting of several sensors tethered ...