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City Manchester / Rome / / Company Creative Commons / Furukawa / / Country United Kingdom / / Currency pence / / / Facility University of Manchester / National Library of Medicine’s Visible Human Project / National Library of Medicine’s Visual Human Project / Building Rome / / IndustryTerm experimental protocol / calibration algorithm / reconstruction algorithms / bundle adjustment algorithm / low cost web cameras / suitable device / 3D printing / camera calibration algorithm / web cameras / feature extraction algorithms / average products / hole-filling algorithms / post-processing / motion photogrammetric reconstruction algorithms / Foot products / reconstruction algorithm / / OperatingSystem Linux / / Organization University of Manchester / Manchester / William I. Sellers Faculty of Life Sciences / / Person Churchill / Herbert Maschner / Mark Morris / Kathrin E. Peyer / How / / Position Academic editor / model / first mathematical model / Corresponding author / / Product Agisoft PhotoScan Standard Edition v1.0.4 / / Technology motion photogrammetric reconstruction algorithms / laser / RAM / calibration algorithm / X-ray / reconstruction algorithms / Linux / tomography / feature extraction algorithms / http / camera calibration algorithm / hole-filling algorithms / experimental protocol / reconstruction algorithm / UDP / Image processing / MRI / bundle adjustment algorithm / / URL http / SocialTag 
Subject-specific body segment parameter estimation using 3D photogrammetry with multiple cameras Kathrin E. Peyer, Mark Morris and William I. Sellers Faculty of Life Sciences, University of Manchester, Manchester, United