A physics-inspired sonification framework maps segmented iOCT retinal layers and needle motion to auditory signals, raising event identification accuracy from 60.6% to 83.4% in a 34-person user study for subretinal injection guidance.
IEEE Title Suppressed Due to Excessive Length 11 Transactions on Visualization and Computer Graphics23(11), 2366–2371 (2017)
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Physics-Based iOCT Sonification for Real-time Interaction Awareness in Subretinal Injection
A physics-inspired sonification framework maps segmented iOCT retinal layers and needle motion to auditory signals, raising event identification accuracy from 60.6% to 83.4% in a 34-person user study for subretinal injection guidance.