Helmet mounted display with improved brightness
First Claim
1. In a helmet mounted display which includes an optical system for directing rays of light to one eye of an observer so as to produce an image superimposed upon a remote scene being observed, the improvement comprising:
- a first surface positioned to reflect rays of light received from the optical system at angles of incidence which vary with the positions on the first surface that the rays are received;
a second surface positioned to receive the rays reflected from the first surface and to reflect them back to the first surface for transmission to the eye of the observer, the first surface being coated with a thin dielectric optical film which is has varying depth over the first surface in accordance with the angle of incidence at the positions so that rays received from the optical system are predominantly reflected and rays received from the second surface are predominantly transmitted.
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Accused Products
Abstract
A helmet mounted display in which a filter receives rays of light at various angles of incidence from an image to be superimposed on the scene being viewed by the operator and reflects these rays to a second surface where the rays are re-reflected through the filter and to the eye of the observer characterized in that the filter is coated in such a manner that it reflects from each position on its surface rays from the image that strike at predetermined angles of incidence but which transmits at each position rays which are received from the second surface.
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Citations
14 Claims
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1. In a helmet mounted display which includes an optical system for directing rays of light to one eye of an observer so as to produce an image superimposed upon a remote scene being observed, the improvement comprising:
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a first surface positioned to reflect rays of light received from the optical system at angles of incidence which vary with the positions on the first surface that the rays are received; a second surface positioned to receive the rays reflected from the first surface and to reflect them back to the first surface for transmission to the eye of the observer, the first surface being coated with a thin dielectric optical film which is has varying depth over the first surface in accordance with the angle of incidence at the positions so that rays received from the optical system are predominantly reflected and rays received from the second surface are predominantly transmitted. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. The method of increasing the brightness of an image which is superimposed upon a remote scene being viewed by one eye of an operator through first and second surfaces the first surface of which is mounted to receive rays of light from a source of the image at angles of incidence which vary with the position such rays of light are received on the first surface and the second surface of which is mounted to receive rays of light reflected from the first surface and to reflect them back to the first surface for transmission through the first surface to the one eye, comprising the steps of:
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(1) measuring the angles of incidence received at each of a plurality of positions on the first surface may by rays from the source of the image; (2) measuring the angles of incidence received at each of the plurality of positions on the first surface made by rays reflected from the second surface; (3) adjusting the mounting of the first and second surfaces so that at any of the plurality of positions, the angle of incidence made by rays from the source of the image is different than the angle of incidence made by rays reflected from the second surface; and (4) coating the first surface with a plurality of dielectric films of different predetermined thickness at each of the plurality of positions, the thickness being chosen to cause the first surface to be predominantly reflective to rays having the angles of incidence measured in step 1 and predominantly transmissive to rays having angles of incidence measured in step 2. - View Dependent Claims (14)
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Specification