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We demonstrate the realization of a very low energy, on-the-eye vergence-type distance ranger based on sensing of a locally uniform vector field, specifically the earth’s magnetic field. This ranging method… Click to show full abstract
We demonstrate the realization of a very low energy, on-the-eye vergence-type distance ranger based on sensing of a locally uniform vector field, specifically the earth’s magnetic field. This ranging method is passive, only requiring measurement of the magnetic field vector at both eyeballs utilizing magnetometer chips placed on the eye scleral regions. The eye vergence angle and range distance are calculated from these two vector quantities. The method can obtain a range reading with as little as 118 nJ of energy consumed per eye for 3.3V and 50 nJ when operated at 1.9V. This method is thus suitable for applications where energy storage is very limited such as in smart contacts vision correcting microsystems.
Journal Title: IEEE Access
Year Published: 2023
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