Towards Uncertainty-Aware Auditory Display for Surgical Navigation

In image-guided navigated interventions, information is often placed on screens to aid the operator in coordinating the placement of a tool with a pre-interventional plan. However, such methods require an operator to repeatedly shift the view from a patient. Auditory display for navigation (e.g., during ablation needle placement, path following, volume resection, etc.) offers suitable means for conveying numerical information using sound, permitting the operator to keep attention on the patient. The numerical navigation information, however, is uncertain due to various sources of potential errors, including from soft-tissue motion estimation processes and tool-tracking hardware. We enhance an existing auditory display approach for soft-tissue navigation to consider this uncertainty in the numerical information. The operator should not only hear navigation cues towards relevant structures, but also receive information on the quality and reliability of such navigation parameters. The consideration of uncertainty in the operating room is, in general, an exciting area of exploration in the usability of new navigation systems, and its transmission with audio significantly offloads reliance on traditional visual displays.



Auditory method to find target (green): Movements in y axis are heard by comparing alternating tones, while movements in x are encoded as position in stereo.