This system introduces ophthalmic light field capture, on a micro camera platform, allowing for a robust approach to the acquisition of multi-view imaging and ensuring nearly all light emitting from the pupil is gathered for processing. 

Spherical tissue deformation in electrostatic fields (NaCL+H20 suspension in hydrogel structure)

Neurovascular imaging interface, implementing coincident imaging/illumination path and through-pupil illumination.

This self-directed, interactive device captures and visualizes images of the retina without the need for complex optics and precise alignment of illumination pathways.

This research investigates the viability of subsurface imaging of the teeth and gums as a possible metric for quantifying blood flow, oxygen levels, bone density,

Non-mydriatic fundus imaging on smart phone platforms may prove to be a paradigm shift in rapid screening devices with no operational expertise required

This system expands upon prior work by fully integrating the self-alignment architecture within the portable user interface.

A cataract-affected eye scatters and refracts light before it reaches the retina, caused by a fogging or clouding of the lens. This system measures this

A low-cost, wearable solid-state device with no moving optical parts is articulated to create a full, 3D reconstruction of the anterior segment of the eye.

Building animatronic substrates for calibration and testing of bionic interfaces.