Add to ORKGThe aim of this paper was to: validate an integrated system (i.e., software application and hardware after calibration) to assess human’s horizontal intra-cyclic velocity with a mechanical speedo-meter. System validation was done for a set of land-based human locomotion techniques (from slow walk to maximal running) in four subjects and comparing it with a videometric system (i.e. APAS). There were no significant differences between pair wise data (speedo-meter versus APAS data) using student‘s t-test for both velocity coefficient of variation and maximal velocity. Linear regression models where very high for both the velocity coefficient of variation and maximal velocity. More than 80% of the Bland-Altman plots were within 1.96 standard-de...
Miniaturized wearable Inertial Measurement Units (IMU) offer new opportunities for the functional as...
Abstract:- This paper presents a simple, inexpensive, and fast procedure for motion kinematics measu...
Sanudo, B, Rueda, D, del Pozo-Cruz, B, de Hoyo, M, and Carrasco, L. Validation of a video analysis s...
The aim of this paper was to: validate an integrated system (i.e., software application and hardware...
The aim of this paper was to: validate an integrated system (i.e., software application and hardware...
The aim of this paper was to: validate an integrated system (i.e., software application and hardware...
The aim of this paper was to: (i) calibrate the Swimsportec® speedo-meter; (ii) concept and develop ...
The aim of this paper was to validate the system for the assessment of horizontal intra-cyclic veloc...
The aim was to validate a system for the assessment of horizontal intra-cyclic velocity while swimmi...
The aim was to validate a system to assess speed-fluctuation at breaststroke and butterfly stroke. 1...
Introduction: The purpose of this study was to validate acceleration data from a single inertial sen...
An increasing diversity of available motion capture technologies allows for measurement of human kin...
Gait analysis is the quantification of locomotion. Understanding the science behind the way we move ...
Spatiotemporal gait parameters such as step time and walking speed can be used to quantify gait perf...
A simple and cost effective technique of video gait analysis applicable within rehabilitation clinic...
Miniaturized wearable Inertial Measurement Units (IMU) offer new opportunities for the functional as...
Abstract:- This paper presents a simple, inexpensive, and fast procedure for motion kinematics measu...
Sanudo, B, Rueda, D, del Pozo-Cruz, B, de Hoyo, M, and Carrasco, L. Validation of a video analysis s...
The aim of this paper was to: validate an integrated system (i.e., software application and hardware...
The aim of this paper was to: validate an integrated system (i.e., software application and hardware...
The aim of this paper was to: validate an integrated system (i.e., software application and hardware...
The aim of this paper was to: (i) calibrate the Swimsportec® speedo-meter; (ii) concept and develop ...
The aim of this paper was to validate the system for the assessment of horizontal intra-cyclic veloc...
The aim was to validate a system for the assessment of horizontal intra-cyclic velocity while swimmi...
The aim was to validate a system to assess speed-fluctuation at breaststroke and butterfly stroke. 1...
Introduction: The purpose of this study was to validate acceleration data from a single inertial sen...
An increasing diversity of available motion capture technologies allows for measurement of human kin...
Gait analysis is the quantification of locomotion. Understanding the science behind the way we move ...
Spatiotemporal gait parameters such as step time and walking speed can be used to quantify gait perf...
A simple and cost effective technique of video gait analysis applicable within rehabilitation clinic...
Miniaturized wearable Inertial Measurement Units (IMU) offer new opportunities for the functional as...
Abstract:- This paper presents a simple, inexpensive, and fast procedure for motion kinematics measu...
Sanudo, B, Rueda, D, del Pozo-Cruz, B, de Hoyo, M, and Carrasco, L. Validation of a video analysis s...