S
Sandro Barone
Researcher at University of Pisa
Publications - 96
Citations - 1635
Sandro Barone is an academic researcher from University of Pisa. The author has contributed to research in topics: Structured light & Photoelasticity. The author has an hindex of 20, co-authored 91 publications receiving 1284 citations. Previous affiliations of Sandro Barone include University of Sheffield.
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Experimentation of structured light and stereo vision for underwater 3D reconstruction
TL;DR: The first results are presented of a research project that aims to investigate the possibility of using active optical techniques for the whole-field 3D reconstructions in an underwater environment, based on the projection of structured lighting patterns acquired by a stereo vision system.
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Towards RGB photoelasticity: Full-field automated photoelasticity in white light
TL;DR: A new full-field method for the automatic analysis of isochromatic fringes in white light, named RGB photoelasticity, which makes it possible to determine retardations uniquely in the range of 0–3 fringe orders.
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Creation of 3D Multi-Body Orthodontic Models by Using Independent Imaging Sensors
TL;DR: D dental data captured by independent imaging sensors are fused to create multi-body orthodontic models composed of teeth, oral soft tissues and alveolar bone structures, based on integrating Cone-Beam Computed Tomography and surface structured light scanning.
Proceedings ArticleDOI
Evaluation of the Effect of Misalignment and Profile Modification in Face Gear Drive by a Finite Element Meshing Simulation
TL;DR: In this paper, the behavior of a face gear transmission considering contact path under load, load sharing and stresses, for an unmodified gear set including shaft misalignment and modification on pinion profile, is investigated by integrating a 3D CAD system and a FEA code, and by simulating the meshing of pinion and gear sectors with three teeth.
Journal ArticleDOI
Full-field separation of principal stresses by combined thermo- and photoelasticity
Sandro Barone,Eann A. Patterson +1 more
TL;DR: In this paper, the authors combined the combined use of thermoelastic stress analysis and full-field reflection photoelasticity based on the phase-stepping technique for two-dimensional problems.