Multiple viewer headset display apparatus and method with...

Optical: systems and elements – Single channel simultaneously to or from plural channels – By partial reflection at beam splitting or combining surface

Reexamination Certificate

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Details

C345S008000

Reexamination Certificate

active

06417969

ABSTRACT:

FIELD OF THE INVENTION
This invention generally relates to the area of image displays and more particularly to transparent image displays and virtual reality user interfaces.
BACKGROUND OF THE INVENTION
Graphical user interfaces have become a standard for interfacing between a user and a computer. Such interfaces are in wide use in computer operating system interfaces produced by Apple, Microsoft and others. These interfaces are limited in that they are intended for interfacing between a user and a computer having a two dimensional display such as a CRT or LCD. A user activates the interface with a key board and or a pointing device such as a mouse pointing to an icon on the display. Advancements have been made with the advent of a touch screen which allows a user to approximately contact the icon or intended area of the graphical user interface in order to use the interface. However, contact with the touch screen can contaminate the display area of the screen with finger prints and other types of smudges. Also, constant physical contact with the touch screen can result in its mechanical failure. Thus, what is needed is a way to contact user interface images without contacting a keyboard or a mouse or the computer display itself.
Three dimensional image displays are improving. Several types of three dimensional displays are known including stereoscopic displays which display a virtual three dimensional image using filters to highlight images intended for each eye of the viewer, thereby providing a stereoscopic or three dimensional affect. Such systems alternately flash images for the left and right eye of the user and require a filter for each eye, usually included in glasses worn by the viewer. Systems are in public use which require glasses may have color filters, orthogonally polarized lenses, or actively switched lenses, and the display is correspondingly modulated with left and right eye images to provide the three dimensional effect. Furthermore, stereoscopic displays which do not require glasses have been described, descriptions are included in U.S. Pat. No. 4,987,487, Jan. 22, 1991, to Ichinose et al. entitled Method of stereoscopic images display which compensates electronically for viewer head movement, and U.S. Pat. No. 5,365,370, Nov. 15, 1994, to Hudgins entitled Three dimensional viewing illusion with 2D display. Yet another stereoscopic display system in completely contained in a headset worn apparatus as described in U.S. Pat. No. 5,673,151 Sep. 30, 1997 to Dennis entitled Image correction in a virtual reality and heads up display. The aforesaid patents are incorporated by reference. The aforesaid stereoscopic displays allow the viewer to simultaneously observe both a stereoscopic object, appearing to be generally set apart in three dimensions from the image projection means, and a physical object, such as the hand of the user, in approximately the same perceived space. What is needed is a method and apparatus by which the intersection of the physical object and the stereoscopic object can form a user interface with a computer system.
Stereoscopic headsets are capable of generating independent images for each eye and thus provide a three-dimensional virtual reality image for the viewer. Such headsets have the advantage of providing the experience of a substantially large display system, such as a movie theater screen, at a significantly reduced price and in a substantially small area. Some headsets are opaque while others are transparent. Opaque headsets entirely block the user's view of real images normally observable when a headset is not worn. Opaque headsets have the advantage of enhancing the virtual reality image but the disadvantage of preventing the viewer from observing real images. The inability of the observer to view real images while wearing the headsets inhibits most normal social functions such as walking or having a normal conversation with others in observer's vicinity. On the other hand, transparent headsets allows the observer to see both real images and virtual reality images projected by the headset, the virtual reality images appearing superimposed upon reality's real images. This has the advantage of allowing the user to view reality while wearing such a headset, thus enabling the user to conduct most normal social functions such as walking or carrying on a normal conversation. However, the quality of the virtual reality image may be compromised when superimposed upon real images because the real images may distract the user from the content of the virtual reality image, thus detracting from the virtual reality experience.
Thus, what is needed is a virtual reality viewing system that provides for the advantages of both transparent and opaque viewing systems while reducing the disadvantages of both.
Often times a viewer may be viewing printed information, such a newspaper or magazine. The text therein often includes a universal resource locator (URL) referring the viewer to a web site or other source for additional information. The viewer must then enter the URL on a computer then view the additional information on the computer, rather than while reading the newspaper or magazine. Furthermore, a still photo presented by the newspaper or magazine may be on in a series of photos of a video action sequence. In order to view the video action sequence the viewer must either decide to stop reading the magazine or newspaper to watch television or access a computer to view the action sequence. What is needed is a way for the viewer to access additional information referred to by printed matter without requiring the viewer to switch from viewing the printed matter to a video display system such as a television or computer.
With a viewing headset, a second person communicating with the viewer of the headset may not be aware of the subject matter being viewed by the viewer. This poses an awkward interpersonal communication scenario. Thus, it is desirable to provide the second person with an indication of the subject matter being viewed by the headset viewer.


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