Patent Application
20150070586
1. Field of the Invention
The present invention relates generally to systems for viewing of polarized video content, and more specifically to viewing of different display content simultaneously on a single display screen.
2. Discussion of the Related Art
Polarized display screen technology is typically used to provide a three-dimensional viewing experience of a video on a flat screen. Two different videos are displayed simultaneously on the screen. Each video consists of polarized light, with the two videos having different directions of polarization. To achieve the 3D effect, typically the videos are similar, with a slight offset. Polarized glasses are provided, where the polarization of one lens matches the polarization of the video intended to be viewed by that eye, and the polarization of the other lens matches the polarization of the video intended to be viewed by the other eye. Thus, each eye views a separate video, producing a 3D effect.
Another example of use of polarized display screen technology involves use of polarized videos so that two viewers view different full-screen videos on the same display screen. Each viewer wears polarized glasses where the polarization of both lenses matches the polarization of the viewed video.
The invention provides a polarized video viewing system wherein at least two polarized videos are superimposed on a video display and played simultaneously, wherein a viewer views only one polarized video when viewed through a polarized optical element.
In one embodiment, the invention can be characterized as a video display system including means for displaying at least two polarized videos simultaneously, at least two polarized videos, and a first polarized optical element. Each polarized video includes a discrete direction of polarization, and the polarization of the polarized optical element is generally equal to the direction of polarization of one of the polarized videos, so that only one polarized video is viewable when viewed through the first polarized optical element.
In another embodiment, the invention can be characterized as a method for viewing a polarized video through a polarized optical element comprising the steps of: providing a video display screen including means for displaying at least two polarized videos simultaneously; providing at least two polarized videos displayed simultaneously on the display screen, each video including a discrete direction of polarization; providing at least one polarized optical element, wherein the direction of polarization of the polarized optical element is generally equal to the direction of polarization of one of the polarized videos, whereby only one of the polarized videos is viewable when viewed through the polarized optical element; and viewing of the video display screen through the polarized optical element, whereby only the polarized video including the direction of polarization of the polarized optical element is viewable.
In yet another embodiment, the method can be characterized as a method for viewing a polarized video through a polarized optical element comprising the steps of: providing a video display screen including means for displaying at least two polarized video channels simultaneously; providing a first polarized video channel; providing a second polarized video channel, whereby the first and second video channels are displayed simultaneously on the video display screen, wherein each polarized video channel includes a discrete direction of polarization; providing a polarized window, wherein the direction of polarization of the polarized window is generally equal to the direction of polarization of the first polarized video channel, whereby only the first polarized video channel is viewable when viewed through the polarized window; providing a polarized mirror, wherein the direction of polarization of the polarized mirror is generally equal to the direction of polarization of the second polarized video channel, whereby only the second polarized video channel is viewable when viewed reflected by the polarized mirror; viewing of the first polarized video channel through the polarized window; and viewing of the second polarized video channel through the polarized mirror.
The above and other aspects, features and advantages of several embodiments of the present invention will be more apparent from the following more particular description thereof, presented in conjunction with the following drawings.
Corresponding reference characters indicate corresponding components throughout the several views of the drawings. Skilled artisans will appreciate that elements in the figures are illustrated for simplicity and clarity and have not necessarily been drawn to scale. For example, the dimensions of some of the elements in the figures may be exaggerated relative to other elements to help to improve understanding of various embodiments of the present invention. Also, common but well-understood elements that are useful or necessary in a commercially feasible embodiment are often not depicted in order to facilitate a less obstructed view of these various embodiments of the present invention.
The following description is not to be taken in a limiting sense, but is made merely for the purpose of describing the general principles of exemplary embodiments. The scope of the invention should be determined with reference to the claims.
Reference throughout this specification to “one embodiment,” “an embodiment,” or similar language means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, appearances of the phrases “in one embodiment,” “in an embodiment,” and similar language throughout this specification may, but do not necessarily, all refer to the same embodiment.
Furthermore, the described features, structures, or characteristics of the invention may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided to provide a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that the invention can be practiced without one or more of the specific details, or with other methods, components, materials, and so forth. In other instances, well-known structures, materials, or operations are not shown or described in detail to avoid obscuring aspects of the invention.
Referring first to
The polarized video display device 102 receives and displays the polarized video 110. The polarized video display device 102 may be any device suitable for receiving and displaying at least two polarized videos simultaneously, for example a polarized 3D television. In the exemplary polarized video display system components 116 shown in
In the exemplary display components 116 shown in
The first polarized video channel 112 and the second polarized video channel 114 are displayed with discrete directions of polarization. The polarization may be circular or linear. For example, the direction of polarization of the first polarized video channel 112 could be clockwise and the direction of the second polarized video channel 114 could be counter-clockwise (using circular polarization). The result of the discrete directions of polarization is that an optical element polarized in the same direction as a polarized video channel will block all other polarized video channels and permit viewing of only the polarized video channel with the direction of the polarized video channel generally equal to the direction of polarization of the optical element.
When the polarized video disc 106 is played using the polarized video player 104, the polarized video 110 encoded on the polarized video disc 106 is transferred to the polarized video display device 102 via the player-display connection 108 and is viewable on the polarized video display device 102. As the polarized video 110 includes at least two discrete video channels 112114, played simultaneously, if different videos are displayed on each channel, this will result in some or all portions of the videos being garbled when viewed as displayed on the polarized video display device 102, as shown in
Referring next to
The polarized video display device 102 is shown with the polarized video 110 displayed on the device 102. In the present embodiment of the invention, the polarized video 110 includes the two polarized video channels, the first polarized video channel 112 and the second polarized video channel 114, displayed simultaneously. To illustrate the differences between the exemplary polarized video channels 112114, they are shown separately in
The second polarized video channel 114 includes the plurality of second polarized images 206, which in the embodiment shown are identical to the first polarized images 200 displayed in the first polarized video channel 112. The second title text 208 and the second closed captioning text 210 comprise the same text as the first title text 202 and the first closed captioning text 204, respectively, but with the text mirrored about a vertical axis, so that the text is readable when viewed in a mirror.
As previously described in
Referring again to
The exemplary mirrored text includes the second title text 208 and the second closed captioning text 210. The second title text 208 includes graphic text included with video content, such as a title or credits. The second closed captioning text 210 includes the text version of the audio associated with the polarized video channel displayed, and is encoded with the second polarized video channel 114. The closed captioning is typically viewed when it is desirable to watch video content without listening to the audio. Those skilled in the art will note that any other text or other images appearing in the mirrored second polarized video channel 114 that would be adversely affected by mirroring may be also be mirrored.
Displaying the first and second polarized video channels 112114 simultaneously on the polarized video display device 102 allows for a viewer 302 (as shown below in
Referring next to
The polarized video 110 is shown displayed on the polarized video display device 102. The viewer 302 views the polarized video display device 102 at a distance from and angle to the plane of the polarized video display device 102 that permits viewing of the displayed polarized video 110. The polarized window 300 is located between the viewer 302 and the polarized video display device 102. As used in this description and in the appended claims, the word ‘window’ means a pane of transparent material whereby the viewer views objects through the window using both eyes.
In the exemplary polarized video display system 304, the plane of the polarized window 300 is oriented generally parallel to the plane of the polarized video display device 102. The polarized window 300 may be angled with respect to a horizontal axis, with respect to a vertical axis, or with respect to both axes.
The polarized window 300 may be made of glass or any other suitable polarizable transparent material. The planar dimension of the polarized window 300 may be of any dimension suitable for manufacture and installation of the polarized window 300 and suitable for viewing of the polarized video display device 102 through the polarized window 300.
In the exemplary system 304, the direction of polarization of the polarized window 300 is generally equal to the direction of polarization of the first polarized video channel 112. The polarization may be circular or linear. This permits only light with the direction of polarization of generally equal to the direction of polarization of the first video channel to be viewed through the polarized window 300. Thus, when viewed through the polarized window 300, the viewer 302 sees only the display of the first polarized video channel 112, including the plurality of first polarized images 200, the first title text 202 and the first closed captioning text 204. As shown in
Thus, while at least two polarized video channels 112114 are displayed on the polarized video display device 102 simultaneously, the viewer 302 views only the first polarized video channel 112.
Referring next to
The polarized video 110 is shown displayed on the polarized video display device 102. In the present embodiment, the plane of the polarized mirror 400 is oriented generally parallel to the plane of the polarized video display device 102. The polarized mirror 400 is located at a distance from and angle to the plane of the polarized video display device 102 so that the polarized video 110 is viewable when the viewer 302 views the polarized mirror 400.
The viewer 302 is located at a distance from and angle to the polarized mirror 400 so that the polarized video 110 is viewable by the viewer 302 looking at the polarized mirror 400. The polarized mirror 400 may be made of mirrored polarized glass, or other material suitable for reflecting and polarizing light. The direction of polarization of the polarized mirror 400 is generally equal to the direction of polarization of the second polarized video channel 114. The polarization may be circular or linear. Alternately, the combination of a non-polarized mirror viewed through a polarized window may be used to achieve the same result.
In the exemplary polarized video display system 304, the vertical plane of the polarized mirror 400 is oriented generally parallel to the vertical plane of the polarized video display device 102. The horizontal axis of the polarized mirror 400 is generally angled with respect to the horizontal axis of the plane of the display device 102.
Referring again to
Additionally, the second polarized video channel 114 includes the plurality of second polarized images 206, the second title text 208 and the second closed captioning text 210. As shown in
Referring next to
The first viewer 500 is shown viewing the polarized video 110 displayed on the polarized video viewing device 102. The first viewer 500 views the polarized video 110 through the polarized window 300, as previously shown in
The second viewer 502 is shown viewing the polarized video 110 displayed on the polarized video display device 102. The second viewer 502 views the polarized video 110 as reflected by the polarized mirror 400, as previously shown in
Referring again to
An exemplary use of the present invention is at a gym, where workout equipment is in different orientations and locations in the workout room. Typically workout rooms include one or more video display screens for users of the gym to view while exercising. It is also common for the video displays to be muted so as to not distract gym users who are not watching the video display or so that different video content may be shown on different display screen without also playing the different associated audios. Therefore, the video displays typically display the closed captioning text in lieu of the audio associated with the video.
Because of the number and types of equipment in a gym room, it is typical for some equipment to be oriented so that the user is facing a video display device 102, while other equipment is facing a mirror in which the video display device 102 is viewed. This allows users of various exercise equipment to view videos displayed on the video display device 102. However, the viewer 302 of the video reflected in the mirror will view the closed captioning text, and any other displayed text, as a mirror image, rendering it unreadable.
The present invention allows the viewer 302 of the polarized video 110 reflected in the mirror to view the closed captioning text and other displayed text in a non-mirrored orientation, while still allowing the viewer 302 with a direct line of sight to the polarized video display 102 to view the images and closed captioning in a normal manner.
Referring next to
As previously shown in
Referring again to
While the invention herein disclosed has been described by means of specific embodiments, examples and applications thereof, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope of the invention set forth in the claims.
