Compact See-Through Display System
First Claim
1. An optical system, comprising:
- a display panel configured to generate a light pattern;
an image former configured to form a virtual image from the light pattern generated by the display panel;
a viewing window configured to allow outside light in from outside of the optical system;
a proximal beam splitter through which the outside light and the virtual image are viewable along a viewing axis; and
a distal beam splitter optically coupled to the display panel and the proximal beam splitter, wherein the distal beam splitter has a beam-splitting interface in a plane that is parallel to the viewing axis.
2 Assignments
0 Petitions
Accused Products
Abstract
An optical system includes a display panel, an image former, a viewing window, a proximal beam splitter, and a distal beam splitter. The display panel is configured to generate a light pattern. The image former is configured to form a virtual image from the light pattern generated by the display panel. The viewing window is configured to allow outside light in from outside of the optical system. The virtual image and the outside light are viewable along a viewing axis extending through the proximal beam splitter. The distal beam splitter is optically coupled to the display panel and the proximal beam splitter and has a beam-splitting interface in a plane that is parallel to the viewing axis. A camera may also be optically coupled to the distal beam splitter so as to be able to receive a portion of the outside light that is viewable along the viewing axis.
-
Citations
35 Claims
-
1. An optical system, comprising:
-
a display panel configured to generate a light pattern; an image former configured to form a virtual image from the light pattern generated by the display panel; a viewing window configured to allow outside light in from outside of the optical system; a proximal beam splitter through which the outside light and the virtual image are viewable along a viewing axis; and a distal beam splitter optically coupled to the display panel and the proximal beam splitter, wherein the distal beam splitter has a beam-splitting interface in a plane that is parallel to the viewing axis. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
-
-
28. A head-mounted display, comprising:
-
a head-mounted support; and an optical system attached to the head-mounted support, wherein the optical system comprises; (a) a display panel configured to generate a light pattern; (b) an image former configured to form a virtual image from the light pattern generated by the display panel; (c) a viewing window configured to allow outside light in from outside of the optical system; (d) a proximal beam splitter through which the outside light and the virtual image are viewable along a viewing axis; and (e) a distal beam splitter optically coupled to the display panel and the proximal beam splitter, wherein the distal beam splitter has a beam-splitting interface in a plane that is parallel to the viewing axis. - View Dependent Claims (29, 30, 31, 32, 33, 34)
-
-
35. A wearable computing device, comprising:
-
a head-mounted support; an optical system attached to the head-mounted support, wherein the optical system comprises; (a) a display panel configured to generate a light pattern; (b) an image former configured to form a virtual image from the light pattern generated by the display panel; (c) a viewing window configured to allow outside light in from outside of the optical system; (d) a proximal beam splitter through which the outside light and the virtual image are viewable along a viewing axis; and (e) a distal beam splitter optically coupled to the display panel and the proximal beam splitter, wherein the distal beam splitter has a beam-splitting interface in a plane that is parallel to the viewing axis; and a computer, wherein the computer is configured to control the display panel.
-
Specification