A Framework for Real-Time Visualization of Experimental and Simulated Ultrasound Images in Augmented Reality
Résumé
This work presents a framework aimed at enhancing real-time visualization in ultrasound applications by using augmented reality. In contexts such as vessel puncture where simultaneous attention to the screen and task execution is challenging, the proposed framework allows for overlaying 2D US images and 3D reconstructions onto the operator's field of view. The framework enables real-time acquisition, synchronization, streaming, and visualization of both experimental ultrasound acquisitions and simulated scenarios.