The duration of stance and swing phase and step and stride length are important parameters in human gait. In this technical note a low-cost ultrasonic motion analysis system is described that is capable of measuring these temporal and spatial parameters while subjects walk on the floor. By using the propagation delay of sound when transmitted in air, this system is able to record the position of the subjects' feet. A small ultrasonic receiver is attached to both shoes of the subject while a transmitter is placed stationary on the floor. Four healthy subjects were used to test the device. Subtracting positions of the foot with zero velocity yielded step and stride length. The duration of stance and swing phase was calculated from heel-strike...
Locomotion is one of the most important abilities of humans. Actually, gait locomotion provides mobi...
Ranging based on ultrasonic sensors can be used for tracking wearable mobile nodes accurately for a ...
In this study we describe an ambulatory system for estimation of spatio-temporal parameters during l...
The duration of stance and swing phase and step and stride length are important parameters in human ...
Human motion capture has been used in rehabilitation clinics for evaluating, quantifying the severit...
This report proposes the analysis of a gait asymmetry system using wireless wearable ultrasonic sens...
In this paper, a low-cost motion analysis system using a wireless ultrasonic sensor network is propo...
This paper describes a measurement of stride during gait. A measurement equipment is made with CMOS ...
In this study we describe a simplified gait analysis system for the estimation of spatial-temporal p...
This paper studies the feasibility of an analysis of spatio-temporal gait parameters based upon acce...
Walking is the most primitive form of gait locomotion innate to humans. It can be considered as one ...
The recording of human movement is used for biomedical applications like physical therapy and sports...
The background of this paper is to apply advanced real-time gait analysis to walking interventions i...
Nowadays clinical motion analysis is a usual method. More and more laboratories offer their faciliti...
Time periods composing stance phase of gait can be clinically meaningful parameters to reveal differ...
Locomotion is one of the most important abilities of humans. Actually, gait locomotion provides mobi...
Ranging based on ultrasonic sensors can be used for tracking wearable mobile nodes accurately for a ...
In this study we describe an ambulatory system for estimation of spatio-temporal parameters during l...
The duration of stance and swing phase and step and stride length are important parameters in human ...
Human motion capture has been used in rehabilitation clinics for evaluating, quantifying the severit...
This report proposes the analysis of a gait asymmetry system using wireless wearable ultrasonic sens...
In this paper, a low-cost motion analysis system using a wireless ultrasonic sensor network is propo...
This paper describes a measurement of stride during gait. A measurement equipment is made with CMOS ...
In this study we describe a simplified gait analysis system for the estimation of spatial-temporal p...
This paper studies the feasibility of an analysis of spatio-temporal gait parameters based upon acce...
Walking is the most primitive form of gait locomotion innate to humans. It can be considered as one ...
The recording of human movement is used for biomedical applications like physical therapy and sports...
The background of this paper is to apply advanced real-time gait analysis to walking interventions i...
Nowadays clinical motion analysis is a usual method. More and more laboratories offer their faciliti...
Time periods composing stance phase of gait can be clinically meaningful parameters to reveal differ...
Locomotion is one of the most important abilities of humans. Actually, gait locomotion provides mobi...
Ranging based on ultrasonic sensors can be used for tracking wearable mobile nodes accurately for a ...
In this study we describe an ambulatory system for estimation of spatio-temporal parameters during l...