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Low-Profile Induced-Voltage Distance Ranger for Smart Contact Lenses

Chayanjit Ghosh, Alex Mastrangelo, Mohit U. Karkhanis, Adwait Deshpande, Aishwaryadev Banerjee, Hanseup Kim, Carlos H. Mastrangelo

2020IEEE Transactions on Biomedical Engineering19 citationsDOI

Abstract

OBJECTIVE: In this paper, we present a novel, low-profile, scleral-coil based, distance ranging system which is suitable for smart, accommodating contact lenses. METHODS: We measure the induced emf between a set of four thin semi-circular coils patterned on flexible Kapton substrates that conform to the eyes' sclera. This induced emf is a function of eye gaze angles. The system then determines the distance from the eyes to the desired object via the triangulation of these eye gaze angles Results: Experiments on eyeball simulated tissue gels indicate an accurate prediction of object distance in the 0.1-15 D range with a 0.15 D RMS error and object direction in the -15 to 15-degree arc with 0.4-degree RMS error, respectively. The energy required was determined to be as low as 20 μJ per range reading. CONCLUSION: Experimental data shows that our proposed new method of eye-tracking and distance ranging system can accurately predict eye-gaze angles and object-distance, whilst using only 20 μJ per range reading. SIGNIFICANCE: The high-accuracy, low-profile and reduced energy requirements of the proposed eye-tracking technique, make it suitable for applications in the vast field of adaptive optics such as smart contact lenses and other low-power vision corrective applications.

Topics & Concepts

OpticsMaterials scienceVoltageOptometryLow voltageOptoelectronicsComputer scienceElectrical engineeringPhysicsEngineeringMedicineGaze Tracking and Assistive TechnologyOphthalmology and Visual Impairment StudiesElectrowetting and Microfluidic Technologies
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