A reciprocity-based cross-directional compensation framework estimates a shared propagation baseline from opposing ultrasonic backscatter profiles to reduce distance-dependent bias while preserving local scattering variations in heterogeneous media.
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Two numerical models (RSI-based and ray-tracing) for ultrasonic wave propagation across interfaces are developed, implemented with QMC integration, and compared for computational efficiency across use cases.
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A Reciprocity-Based Signal Compensation Framework for Ultrasonic Backscatter Measurements in Heterogeneous Scattering Media
A reciprocity-based cross-directional compensation framework estimates a shared propagation baseline from opposing ultrasonic backscatter profiles to reduce distance-dependent bias while preserving local scattering variations in heterogeneous media.
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Efficient numerical frameworks for modelling ultrasonic beams propagating across interfaces
Two numerical models (RSI-based and ray-tracing) for ultrasonic wave propagation across interfaces are developed, implemented with QMC integration, and compared for computational efficiency across use cases.