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16th IEEE International Symposium on Mixed and Augmented Reality (ISMAR), Date: 2017/10/09 - 2017/10/13, Location: FRANCE, Nantes

Publication date: 2017-01-01
Pages: 97 - 102
ISSN: 9780769563275
Publisher: IEEE

ADJUNCT PROCEEDINGS OF THE 2017 IEEE INTERNATIONAL SYMPOSIUM ON MIXED AND AUGMENTED REALITY (ISMAR-ADJUNCT)

Author:

Thoma, Janine
Havlena, Michal ; Stalder, Severin ; Van Gool, Luc ; Broll, W ; Regenbrecht, H ; Swan, JE ; Bruder, G ; Servieres, M ; Sugimoto, M

Keywords:

Science & Technology, Technology, Computer Science, Hardware & Architecture, Robotics, Imaging Science & Photographic Technology, Computer Science, Intra-oral scanning, augmented reality, HMD calibration, implicit pose estimation, CALIBRATION, PSI_VISICS, PSI_4337

Abstract:

© 2017 IEEE. Digital impressions of teeth, obtained through intra-oral scanning, allow for more efficient and cost effective treatments of many dental indications. Current state-of-the-art intra-oral impression acquisition systems make use of a separate monitor to show the scanning progress, forcing the dentist to divert attention away from the scanner and the patient. In this paper, we present an augmented reality based solution to this problem. During the scanning process, an optical see-through head-mounted display is used to show an online overlay of the dynamic dental model onto the patient's teeth. The dentist can then fully focus on the patient and the scanner, while still being able to keep track of the current state of the model. This type of novel application, which fundamentally changes the humancomputer interaction of intra-oral scanning systems, requires a fast and accurate registration of a dynamically growing model onto a glossy, partially occluded surface at a very small scale. To meet this demand, we propose application tailored algorithms for indirect high accuracy online 3D teeth tracking and optical see-through head-mounted display calibration. Experimental results indicate that our system does have a potential to noticeably facilitate intraoral scanning in the future.