Spatial Position Measurement System for Surgical Navigation Using 3-D Image Marker-Based Tracking Tools With Compact Volume
We proposed a spatial position measurement system using 3-D image marker and tracking tools with both compact volume and high positional measurement accuracy for surgical navigation, especially in limited surgical environment in minimally invasive surgery.
High Quality See-Through Surgical Guidance System Using Enhanced 3D Autostereoscopic Augmented Reality
We propose a high quality real 3D see-through surgical guidance system for precise and minimal invasive surgery. The system provides a novel approach to assist precise and safe clinical microsurgeries with intuitive and reliable diagnosis images.