Head-mounted display apparatus employing one or more reflective optical surfaces
First Claim
Patent Images
1. A head-mounted display apparatus comprising:
- (I) a frame adapted to be mounted on a user'"'"'s head;
(II) an image display system supported by the frame; and
(III) a reflective optical surface supported by the frame, the reflective optical surface being a continuous surface that is not rotationally symmetric about any coordinate axis of a three-dimensional Cartesian coordinate system;
wherein;
(a) the image display system includes at least one light-emitting surface;
(b) the reflective optical surface is configured to reflect spatially-separated virtual images of spatially-separated portions of the at least one light-emitting surface to perform non-pupil forming, in-focus for near-to-the eye viewing of spatially-separated reflected virtual images, at least one of the spatially-separated virtual images being angularly separated from at least one other of the spatially-separated virtual images by an angular separation of at least 100 degrees, said angular separation being measured from the center of rotation of a single eye of the user; and
(c) at least one point of the reflective optical surface being angularly separated from at least one other point of the reflective optical surface by at least 100 degrees, said angular separation being measured from the center of rotation of the single eye of the user;
(d) wherein the angular separation is up to a widest field of view for a single eye.
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Abstract
Head-mounted displays (100) are disclosed which include a frame (107), an image display system (110) supported by the frame (107), and a reflective surface, e.g., a free-space, ultra-wide angle, reflective optical surface (a FS/UWA/RO surface) (120), supported by the frame (107). In certain embodiments, the reflective surface (120) produces spatially-separated virtual images that are angularly separated by at least 100, 150, or 200 degrees. Methods and apparatus for designing reflective optical surfaces, including FS/UWA/RO surfaces, for use in head-mounted displays (100) are also disclosed.
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Citations
27 Claims
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1. A head-mounted display apparatus comprising:
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(I) a frame adapted to be mounted on a user'"'"'s head; (II) an image display system supported by the frame; and (III) a reflective optical surface supported by the frame, the reflective optical surface being a continuous surface that is not rotationally symmetric about any coordinate axis of a three-dimensional Cartesian coordinate system; wherein; (a) the image display system includes at least one light-emitting surface; (b) the reflective optical surface is configured to reflect spatially-separated virtual images of spatially-separated portions of the at least one light-emitting surface to perform non-pupil forming, in-focus for near-to-the eye viewing of spatially-separated reflected virtual images, at least one of the spatially-separated virtual images being angularly separated from at least one other of the spatially-separated virtual images by an angular separation of at least 100 degrees, said angular separation being measured from the center of rotation of a single eye of the user; and (c) at least one point of the reflective optical surface being angularly separated from at least one other point of the reflective optical surface by at least 100 degrees, said angular separation being measured from the center of rotation of the single eye of the user; (d) wherein the angular separation is up to a widest field of view for a single eye. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A head-mounted display apparatus comprising:
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(I) a frame adapted to be mounted on a user'"'"'s head; (II) an image display system supported by the frame and comprising at least one light-emitting surface; and (III) a free-space, ultra-wide angle, reflective optical surface, the reflective optical surface being a continuous surface, supported by the frame is configured to reflect spatially-separated virtual images of spatially-separated portions of the at least one light-emitting surface to perform non-pupil forming, in-focus for near-to-the eye viewing of spatially-separated reflected virtual images, at least one of the spatially-separated virtual images being angularly separated from at least one other of the spatially-separated virtual images by an angular separation of at least 100 degrees, the angular separation being measured from a center of rotation of a single eye of the user; (IV) wherein the angular separation is up to a widest field of view for a single eye. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A head-mounted display apparatus comprising:
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(I) a frame adapted to be mounted on a user'"'"'s head; (II) an image display system supported by the frame; and (III) a reflective surface supported by the frame, the reflective surface providing non-pupil forming, in-focus for near-to-the eye viewing of spatially-separated reflected virtual images over a field. of view to a nominal user of at least 200 degrees; wherein; (a) the image display system includes at least one light-emitting surface which includes at least first and second, spatially-separated, light-emitting regions having, respectively, first and second information contents; (b) the reflective surface comprises at least first and second, spatially-separated, reflective regions having, respectively, first and second surface normals which point in different directions; (c) for at least one direction of gaze of an eye of the nominal user, light from the first light-emitting region reflects off of the first reflective region and enters said eye to form a visible virtual image of the first information content; (d) for at least one direction of gaze of said eye, light from the second light-emitting region reflects off of the second reflective region and enters said eye to form a visible virtual image of the second information content; (e) for at least one direction of gaze of said eye, the light from the first light-emitting region reflects off of the first reflective region and enters said eye to form the visible virtual image of the first information content and the light from the second light-emitting region reflects off of the second reflective region and does not enter said eye; and (f) wherein the angular separation is up to a widest field of view of a single eye. - View Dependent Claims (17, 18, 19)
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20. A computer-based method for designing a reflective optical surface for use in a head-mounted display which includes an image display system having a plurality of content areas, the method comprising using one or more computers to perform the steps of:
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(a) dividing, by the one or more computers, the reflective optical surface into a plurality of local reflective regions, each local reflective region having a surface normal; (b) associating, by the one or more computers, the each local reflective region of the reflective optical surface with a single content area of the image display system, each content area being associated with at least one local reflective region; and (c) adjusting, by the one or more computers, a configuration of the reflective optical surface so that each of the surface normals bisects the following two vectors; (1) a vector from the local reflective region to its associated content area; and (2) a vector from the local reflective region to the location of a center of rotation of a nominal user'"'"'s eye. - View Dependent Claims (21, 22, 23, 24, 25)
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26. A reflective optical surface comprising:
a surface having a plurality of local reflective regions providing non-pupil forming, in-focus for near-to-the eye viewing of spatially-separated reflected virtual images over a horizontal field of view up to 100 degrees, wherein each local reflective region having a surface normal such that each of the surface normals is configured to bisect both (1) a first vector from the local reflective region to its associated content area of a display device and (2) a second vector from the local reflective region to the location of a center of rotation of the user'"'"'s eye; and each local reflective region is configured to reflect a spatially-separated virtual image from a light-emitting surface, at least one of the spatially-separated virtual images angularly separated from at least one other of the spatially-separated virtual images by an angular separation of up to 100 degrees, said angular separation being measured from the center of rotation of the user'"'"'s eye; and wherein the angular separation is up to a widest field of view for a direction of gaze. - View Dependent Claims (27)
Specification