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(Reference retrieved automatically from Web of Science through information on FAPESP grant and its corresponding number as mentioned in the publication by the authors.)

Action Sport Cameras as an Instrument to Perform a 3D Underwater Motion Analysis

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Author(s):
Bernardina, Gustavo R. D. ; Cerveri, Pietro ; Barros, Ricardo M. L. ; Marins, Joao C. B. ; Silvatti, Amanda P.
Total Authors: 5
Document type: Journal article
Source: PLoS One; v. 11, n. 8 AUG 11 2016.
Web of Science Citations: 6
Abstract

Action sport cameras (ASC) are currently adopted mainly for entertainment purposes but their uninterrupted technical improvements, in correspondence of cost decreases, are going to disclose them for three-dimensional (3D) motion analysis in sport gesture study and athletic performance evaluation quantitatively. Extending this technology to sport analysis however still requires a methodologic step-forward to making ASC a metric system, encompassing ad-hoc camera setup, image processing, feature tracking, calibration and 3D reconstruction. Despite traditional laboratory analysis, such requirements become an issue when coping with both indoor and outdoor motion acquisitions of athletes. In swimming analysis for example, the camera setup and the calibration protocol are particularly demanding since land and underwater cameras are mandatory. In particular, the underwater camera calibration can be an issue affecting the reconstruction accuracy. In this paper, the aim is to evaluate the feasibility of ASC for 3D underwater analysis by focusing on camera setup and data acquisition protocols. Two GoPro Hero3+ Black (frequency: 60Hz; image resolutions: 1280x720/1920x1080 pixels) were located underwater into a swimming pool, surveying a working volume of about 6m(3). A two-step custom calibration procedure, consisting in the acquisition of one static triad and one moving wand, carrying nine and one spherical passive markers, respectively, was implemented. After assessing camera parameters, a rigid bar, carrying two markers at known distance, was acquired in several positions within the working volume. The average error upon the reconstructed inter-marker distances was less than 2.5mm (1280x720) and 1.5mm (1920x1080). The results of this study demonstrate that the calibration of underwater ASC is feasible enabling quantitative kinematic measurements with accuracy comparable to traditional motion capture systems. (AU)

FAPESP's process: 06/02403-1 - Methodology for tridimensional kinematics analysis of swimmer’s trunks separate respiratory volumes during swimming
Grantee:Amanda Piaia Silvatti
Support Opportunities: Scholarships in Brazil - Master
FAPESP's process: 09/09359-6 - PROPOSITION AND VALIDATION OF A SYSTEM FOR UNDERWATER THREE-DIMENSIONAL KINEMATICS ANALYSIS OF THE HUMAN MOVEMENTS
Grantee:Amanda Piaia Silvatti
Support Opportunities: Scholarships in Brazil - Doctorate