Display system for producing wide-angle, retroreflective real images

What is claimed is: 1 . A display system for displaying wide-angle, retroreflective real images in a viewing space, comprising: a first display station comprising a first beamsplitter, a first retroreflector at an offset angle from the first beamsplitter, and at least one of a first display configured to output a displayed image and a first object illuminated by a light source, wherein the at least one of the first display and the first object are positioned in the first display station such that light from the first display and the first object are reflected from or transmitted through the first beamsplitter onto a retroreflective surface of the first retroreflector to be retroreflected back toward the first beamsplitter to be reflected from or transmitted through the first beamsplitter into the viewing space as a first real image; and a second display station comprising a second beamsplitter, a second retroreflector at an offset angle from the second beamsplitter, and at least one of a second display configured to output a displayed image and a second object illuminated by a light source, wherein the at least one of the second display and the second object are positioned in the second display station such that light from the second display and the second object are reflected from or transmitted through the second beamsplitter onto a retroreflective surface of the second retroreflector to be retroreflected back toward the second beamsplitter to be reflected from or transmitted through the second beamsplitter into the viewing space as a second real image that at least partially overlaps the first real image to form an overlapping real image. 2 . The display system of claim 1 , wherein the offset pitch angle is 45 degrees and the first and second beamsplitters comprise planar sheets or panes of at least partially transmissive material. 3 . The display system of claim 1 , wherein the second beamsplitter abuts the first beamsplitter along one edge and is yaw rotated about an axis extending through the one edge by a rotation angle and wherein the retroreflective surface of the second retroreflector abuts the retroreflective surface of the first retroreflector along one edge and is rotated about an axis extending through the one edge by the rotation angle. 4 . The display system of claim 3 , wherein the yaw rotation angle is in the range of 15 to 45 degrees. 5 . The display system of claim 4 , wherein the yaw rotation angle is about 22.5 degrees. 6 . The display system of claim 3 , wherein the second display and the second object are rotated from the first display and the second object, respectively, by the rotation angle. 7 . The display system of claim 1 , wherein the first and second real images have matching angular orientations in the viewing space and substantially fully overlap. 8 . The display system of claim 1 , a third display station comprising a third beamsplitter, a third retroreflector at an offset yaw angle from the third beamsplitter, and at least one of a third display configured to output a displayed image and a third object illuminated by a light source, wherein the at least one of the third display and the third object are positioned in the third display station such that light from the third display and the third object are reflected from or transmitted through the third beamsplitter onto a retroreflective surface of the third retroreflector to be retroreflected back toward the third beamsplitter to be reflected from or transmitted through the third beamsplitter into the viewing space as a third real image that at least partially overlaps at least one of the first and second real images to form the overlapping real image 9 . A display system for displaying wide-angle, retroreflective real images in a viewing space, comprising: first and second beamsplitters, wherein the second beamsplitter abuts the first beamsplitter and wherein the second beamsplitter is rotated by a rotation angle relative to the first beamsplitter; first and second retroreflectors, wherein the second retroreflector is rotated by the rotation angle relative to the first retroreflector and wherein the first and second retroreflectors are positioned to receive light transmitted through or reflected from the first and second beamsplitters, respectively, and in response to reflect the light back toward one of the first and second beamsplitters; and first and second light sources operable to provide light to the first and second beamsplitters which respond by transmitting or reflecting the light to the first and second retroreflectors, wherein the first and second light sources comprise at least one of an illuminated object and a display. 10 . The display system of claim 9 , wherein the first and second light sources are oriented to rotate the at least one of an illuminated object and a display of the second light source by the rotation angle relative to the at least one of an illuminated object and a display of the first light source. 11 . The display system of claim 9 , wherein the rotation angle is in the range of 15 to 45 degrees. 12 . The display system of claim 9 , wherein the at least one of an illuminated object and a display of the first and second light sources are located a matching distance from the first and second beamsplitters, whereby an overlapping retroreflective real image is formed in the viewing space by a combination of at least a portion of the light provided by the first and second light sources that is retroreflected from the first and second retroreflectors. 13 . A display system for displaying wide-angle, retroreflective real images in a viewing space, comprising: a retroreflector with a retroreflective surface; a beamsplitter oriented at an offset angle to the retroreflective surface; a first reflector with a curved reflective surface; a light source configured to output light associated with a display or illuminated object, wherein the output light is directed onto the curved reflective surface which first reflects the output light onto the beamsplitter and wherein a portion of the first reflected output light is transmitted through the beamsplitter onto the retroreflective surface producing retroreflected light that is directed back onto the beamsplitter which reflects a portion of the retroreflected light; and a second reflector with a curved reflective surface, wherein the second reflector is positioned such that the curved reflective surface of the second reflector receives and reflects the portion of the retroreflected light reflected from the beamsplitter to form a retroreflective real image in the viewing space. 14 . The display system of claim 13 , wherein the curved reflective surfaces of the first and second reflectors have matching shapes. 15 . The display system of claim 14 , wherein the output light strikes the curved reflective surface of the first reflector at a corresponding portion of the curved reflective surface of the second reflector that reflects the portion of the retroreflected light reflected from the beamsplitter. 16 . The display system of claim 14 , wherein the curved reflective surfaces are located at matching angular orientations to and offset distances from opposite sides of the beamsplitter. 17 . The display system of claim 13 , wherein the curved reflective surfaces are concave. 18 . The display system of claim 13 , wherein the retroreflective surface is curved, whereby an acceptance angle of the retroreflective surface maintained for large viewing angles in the viewing space.