This paper describes the design and development of a cost-effective (development cost of USD 300) human motion analysis system for children with movement disorders. Developed system consists of a Microsoft Kinect™ camera system, wearable force insole system, and data acquisition system. The system is capable of datalogging, and analysing kinematics, and kinetics parameters of gait. Real-time kinematics data obtained from normal walking, and kinetics data obtained from the test subjects reported to be within normal references provided in literatures. It is anticipated that the system will be beneficial in providing an alternative gait analysis system for children with movement disorders
Human gait has been extensively studied in the past in the hope that a more thorough understanding o...
Summary: Motion tracking provides unique insights into motor, cognitive, and social development by c...
Walking results from a complicated process involving the brain, spinal cord, peripheral nerves, musc...
Gait analysis is an important tool in helping identify the problems and abnormalities in human locom...
The purpose of this study resulted from a need to gather and analyze data on gait characteristics of...
Abstract:- This paper presents a simple, inexpensive, and fast procedure for motion kinematics measu...
The effectiveness of a rehabilitation regimen can be ensured only if an appropriate monitoring of pr...
This paper presents a developed low cost system for human gait analysis. Two web cameras placed in o...
This study introduced Kinect as motion capturing device and its potential as analysis platform by de...
Gait-related problems can be addressed with the use of qualitative and quantitative data. In the cur...
Obtaining quantifiable data on pediatric walking patterns has numerous applications in the biomedica...
3D kinematic measurements in children with cerebral palsy (CP) to assess gait deviations can only be...
The project focused on the validation of using the Kinect sensor to build a low cost motion analysis...
Background: Gait analysis for therapy regimen prescription and monitoring requires patients to physi...
To the best of our knowledge, this is the maiden attempt to build a three-dimensional dataset that c...
Human gait has been extensively studied in the past in the hope that a more thorough understanding o...
Summary: Motion tracking provides unique insights into motor, cognitive, and social development by c...
Walking results from a complicated process involving the brain, spinal cord, peripheral nerves, musc...
Gait analysis is an important tool in helping identify the problems and abnormalities in human locom...
The purpose of this study resulted from a need to gather and analyze data on gait characteristics of...
Abstract:- This paper presents a simple, inexpensive, and fast procedure for motion kinematics measu...
The effectiveness of a rehabilitation regimen can be ensured only if an appropriate monitoring of pr...
This paper presents a developed low cost system for human gait analysis. Two web cameras placed in o...
This study introduced Kinect as motion capturing device and its potential as analysis platform by de...
Gait-related problems can be addressed with the use of qualitative and quantitative data. In the cur...
Obtaining quantifiable data on pediatric walking patterns has numerous applications in the biomedica...
3D kinematic measurements in children with cerebral palsy (CP) to assess gait deviations can only be...
The project focused on the validation of using the Kinect sensor to build a low cost motion analysis...
Background: Gait analysis for therapy regimen prescription and monitoring requires patients to physi...
To the best of our knowledge, this is the maiden attempt to build a three-dimensional dataset that c...
Human gait has been extensively studied in the past in the hope that a more thorough understanding o...
Summary: Motion tracking provides unique insights into motor, cognitive, and social development by c...
Walking results from a complicated process involving the brain, spinal cord, peripheral nerves, musc...