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Filters: Author is Zachary M C Baum [Clear All Filters]
Real-time self-calibration of a tracked augmented reality display. SPIE Medical Imaging 2016. 9786, Baum2016a.pdf (1.85 MB)(2016).
Real-time self-calibration of a handheld augmented reality overlay system. 14th Annual Imaging Network Ontario Symposium (ImNO). Baum2016b.pdf (679.99 KB)(2016).
Usability of a real-time tracked augmented reality display system in musculoskeletal injections. SPIE Medical Imaging 2017: Image-Guided Procedures, Robotic Interventions, and Modeling. Baum2017a.pdf (889.77 KB)(2017).
Evaluation of a mobile, real-time, tracked augmented reality display for surgical navigation. 15th Annual Imaging Network Ontario Symposiuim. Baum2017b.pdf (276.46 KB)(2017).
Real-Time, Tracked, Mobile Augmented Reality Display for Surgical Navigation: Usability Study on Simulated Patients. The 9th IGT Workshop. Baum2017c.pdf (172.76 KB)(2017).
Visual aid for identifying vertebral landmarks in ultrasound. SPIE Medical Imaging 2018: Image-Guided Procedures, Robotic Interventions, and Modeling. 10576, 105760Z. Baum2018a.pdf (1.46 MB)(2018).
Ultrasound-based vertebral landmark localization using deformable spine models. 16th Annual Imaging Network Ontario Symposiuim. Baum2018b.pdf (1.03 MB) Baum2018b-Poster.pdf (961.09 KB)(2018).
Step-wise identification of ultrasound-visible anatomical landmarks for 3D visualization of scoliotic spine. SPIE Medical Imaging 2019: Image-Guided Procedures, Robotic Interventions, and Modeling. 10951, Baum2019a.pdf (496 KB)(2019).
Assessment of intraoperative neurosurgical planning with the Microsoft HoloLens. 17th Annual Imaging Network Ontario Symposium (ImNO). Baum2019b.pdf (162.89 KB)(2019).
Augmented reality training platform for neurosurgical burr hole localization. Journal of Medical Robotics Research. 4, 1942001-1 - 1942001-13. Baum2020a.pdf (646.88 KB)(2019).
AUGMENTED REALITY TRAINING PLATFORM FOR PLACEMENT OF NEUROSURGICAL BURR HOLES. School of Computing. Masters, Baum2019c.pdf (2.56 MB)(2019).