Waveguide eye tracking employing volume Bragg grating
First Claim
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1. An apparatus for use in tracking an eye that is illuminated by infrared light having an infrared wavelength, the apparatus comprising:
- a waveguide that is transparent and includes an input-coupler and an output-coupler;
the input-coupler comprising a volume Bragg grating adapted to receive infrared light having the infrared wavelength that is reflected from an eye and couple the received infrared light into the waveguide so that at least a portion of the infrared light that is coupled into the waveguide travels by way of total internal reflection to the output-coupler of the waveguide;
a lens module that converts infrared light that exits the waveguide at the output-coupler from angularly encoded infrared light to spatially encoded infrared light; and
a sensor that produces eye tracking data in dependence on the spatially encoded infrared light produced using the lens module;
the volume Bragg grating including a lower boundary and an upper boundary, the upper boundary being closer to the output-coupler than the lower boundary;
the volume Bragg grating having a k-vector angle at the lower boundary that is greater than a k-vector angle at the upper boundary, with k-vector angles of the volume Bragg grating between the lower and upper boundaries gradually decreasing as distances decrease between grating planes of the volume Bragg grating and the upper boundary;
the volume Bragg grating having a grating period at the lower boundary that is less than the grating period at the upper boundary, with the grating period of the volume Bragg grating between the lower and upper boundaries gradually increasing; and
the volume Bragg grating having a narrow angular bandwidth that is no more than 5 degrees.
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Abstract
A transparent waveguide, which is for use in tracking an eye that is illuminated by infrared light having an infrared wavelength, includes a volume Bragg grating type of input-coupler adapted to receive infrared light having the infrared wavelength and couple the received infrared light into the waveguide. The volume Bragg grating includes a lower boundary and an upper boundary that is closer to the output-coupler than the lower boundary. A k-vector angle of the volume Bragg grating at the lower boundary is greater than a k-vector angle at the upper boundary, with k-vector angles of the volume Bragg grating between the lower and upper boundaries gradually decreasing as distances decrease between grating planes of the volume Bragg grating and the upper boundary. Additionally, the volume Bragg grating preferably has an angular bandwidth that is no greater than 5 degrees.
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Citations
14 Claims
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1. An apparatus for use in tracking an eye that is illuminated by infrared light having an infrared wavelength, the apparatus comprising:
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a waveguide that is transparent and includes an input-coupler and an output-coupler; the input-coupler comprising a volume Bragg grating adapted to receive infrared light having the infrared wavelength that is reflected from an eye and couple the received infrared light into the waveguide so that at least a portion of the infrared light that is coupled into the waveguide travels by way of total internal reflection to the output-coupler of the waveguide; a lens module that converts infrared light that exits the waveguide at the output-coupler from angularly encoded infrared light to spatially encoded infrared light; and a sensor that produces eye tracking data in dependence on the spatially encoded infrared light produced using the lens module; the volume Bragg grating including a lower boundary and an upper boundary, the upper boundary being closer to the output-coupler than the lower boundary; the volume Bragg grating having a k-vector angle at the lower boundary that is greater than a k-vector angle at the upper boundary, with k-vector angles of the volume Bragg grating between the lower and upper boundaries gradually decreasing as distances decrease between grating planes of the volume Bragg grating and the upper boundary; the volume Bragg grating having a grating period at the lower boundary that is less than the grating period at the upper boundary, with the grating period of the volume Bragg grating between the lower and upper boundaries gradually increasing; and the volume Bragg grating having a narrow angular bandwidth that is no more than 5 degrees. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for use in tracking an eye, the method comprising:
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illuminating an eye with infrared light while a volume Bragg grating type of input-coupler of a waveguide is generally axially aligned with the eye; using the volume Bragg grating type of input-coupler to couple, into the waveguide, infrared light beams reflected from the eye that are incident on the volume Bragg grating type input-coupler; using gradually decreasing k-vector angles, between lower and upper boundaries of the volume Bragg grating type of input-coupler, to cause at least a majority of the infrared light that is coupled into the waveguide by the volume Bragg grating type of input-coupler to propagate within the waveguide to an output-coupler of the waveguide, the volume Bragg grating having a grating period at the lower boundary that is less than the grating period at the upper boundary; using an angular bandwidth of the volume Bragg grating type of input-coupler that is equal to or less than 5 degrees to limit an extent that different infrared light beams, coupled into the waveguide after being reflected from a same point on the eye, are non-collimated as the different infrared light beams propagate from the volume Bragg grating type of input-coupler to the output-coupler; using the output-coupler of the waveguide, causing the infrared light beams that have propagated from the volume Bragg grating type of input-coupler to the output-coupler to exit the waveguide; and converting the infrared light beams that exit the waveguide from angularly encoded infrared light beams to two-dimensional spatially encoded infrared light beams. - View Dependent Claims (10, 11)
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12. A system for use in tracking an eye, comprising:
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an infrared illumination source that produces infrared light used to illuminate an eye; a waveguide that is transparent and includes an input-coupler and an output-coupler; a lens module that converts the infrared light beams that exit the waveguide at the output-coupler from angularly encoded infrared light beams to two-dimensional spatially encoded infrared light beams; a sensor that produces eye tracking data in dependence on the two-dimensional spatially encoded infrared light beams produced using the lens module; the input-coupler comprising a volume Bragg grating adapted to receive infrared light having the infrared wavelength and couple the received infrared light into the waveguide so that at least a portion of the infrared light that is coupled into the waveguide travels by way of total internal reflection to the output-coupler of the waveguide; the volume Bragg grating including a lower boundary and an upper boundary, the upper boundary being closer to the output-coupler than the lower boundary; the volume Bragg grating having a k-vector angle at the lower boundary that is greater than a k-vector angle at the upper boundary, with k-vector angles of the volume Bragg grating between the lower and upper boundaries gradually decreasing as distances decrease between grating planes of the volume Bragg grating and the upper boundary; the volume Bragg grating having a grating period at the lower boundary that is less than the grating period at the upper boundary, with the grating period of the volume Bragg grating between the lower and upper boundaries gradually increasing; and the volume Bragg grating having a narrow angular bandwidth that is between 1 and 2 degrees. - View Dependent Claims (13, 14)
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Specification
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Current AssigneeMicrosoft Technology Licensing LLC (Microsoft Corporation)
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Original AssigneeMicrosoft Technology Licensing LLC (Microsoft Corporation)
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InventorsRobbins, Steven, Nguyen, Ian A., Lou, Xinye
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Primary Examiner(s)Dharia, Prabodh M
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Application NumberUS14/456,512Publication NumberTime in Patent Office687 DaysField of Search345/8, 345/32, 345/156, 382/117, 385/2, 385/10, 385/16, 385/31, 385/37, 385/117, 359/22, 359/35, 359/569, 359/643US Class Current1/1CPC Class CodesG02B 27/0093 with means for monitoring d...G02B 27/017 Head mountedG02B 27/0172 characterised by optical fe...G02B 5/18 Diffraction gratings hologr...G06F 3/013 Eye tracking input arrangem...
