System Logic: Bio-Digital Synchronization [Pre-Capture Phase]
Project Eve targets a sub-millimeter isotropic volumetric capture. This resolution is required to validate the deep-tissue biomechanical primitives that drive observable surface morphology. By achieving this density, we can isolate the non-rigid deformation of dermal layers against underlying fat-pad and muscular movement.
The core methodology relies on the temporal and spatial alignment of ultra-high-field MRI (7T+) and high-density EEG (HD-EEG). This allows us to map bio-electrical intent (neural firing) directly to physical anatomical change (muscular contraction) in a synchronized volumetric frame.
Raw multi-modal data is processed through a Differentiable Volumetric Rendering - Neural Motion Field (DVR-NeMF) solver. This architecture utilizes the captured biomechanical primitives as supervised training data to optimize a physics-informed neural solver.