Augmented Environments for Computer-Assisted Interventions, 1st ed. 2015 10th International Workshop, AE-CAI 2015, Held in Conjunction with MICCAI 2015, Munich, Germany, October 9, 2015. Proceedings Image Processing, Computer Vision, Pattern Recognition, and Graphics Series
Coordonnateurs : Linte Cristian A, Yaniv Ziv, Fallavollita Pascal
Foreword.- Ultrasound-Guided Navigation System for Orthognathic Surgery.- Ultrasound Image Overlay onto Endoscopic Image by Fusing 2D-3D Tracking of Laparoscopic Ultrasound Probe.- Interaction-based registration correction for improved augmented reality alignment in neurosurgery.- “On the Fly” reconstruction and tracking system for Patient Setup in Radiation Therapy.- 3D Catheter Tip Tracking in 2D X-ray Image Sequences Using a Hidden Markov Model and 3DRA.- Human-PnP: Ergonomic AR interaction paradigm for manual placement of rigid bodies.- Real-time Markerless Respiratory Motion Management using Thermal Sensor Data.- An iterative closest point framework for ultrasound calibration.- Development of 4D human body model that enables deformation of skin, organ and blood vessel according to dynamic change.- Augmented Reality for Specific Neurovascular Surgical Tasks.- Layer Separation for Vessel Enhancement in Interventional X-ray Angiograms Using Morphological Filtering and Robust PCA.- Automatic guide-wire detection for neurointerventions using low-rank estimation and denoising.- 3D Surgical Overlay With Markerless Image Registration Using a Single Came
ra.- Simultaneous Estimation of Feature Correspondence and Stereo Object Pose with Application to Ultrasound Augmented Robotic Laparoscopy.- Patient adapted augmented reality system for real-time echocardiographic applications.Includes supplementary material: sn.pub/extras
Date de parution : 09-2015
Ouvrage de 155 p.
15.5x23.5 cm
Thèmes d’Augmented Environments for Computer-Assisted Interventions :
Mots-clés :
3D imaging; Augmented reality; Image registration; Medical imaging; Virtual reality; Computer-assisted interventions; Hidden markov model; Hybrid simulation; Image segmentation; Image visualization; Image-guided interventions; Image-guided neurosurgery; Interventional imaging; Minimally invasive surgery; Mixed reality; Range imaging; Registration; Surgical simulation; Ultrasound-guided interventions; x-ray angiograms