Optics: image projectors – Methods
Reexamination Certificate
2002-08-12
2003-06-17
Adams, Russell (Department: 2851)
Optics: image projectors
Methods
C353S122000, C353S007000, C353S010000, C353S028000, C353S074000, C359S458000, C359S462000, C359S475000, C359S477000, C359S479000, C352S057000, C352S061000
Reexamination Certificate
active
06578971
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to video display systems. In another aspect, this invention concerns a 3D video screen which provides enhanced depth cueing. In still another aspect, this invention concerns a method for designing and/or constructing a concave 3D video screen.
2. Description of the Prior Art
Video display systems are useful for a variety of applications where it is desirable to communicate information in a visible format (e.g., entertainment, education, communications, and scientific research). Two broad categories of video display systems are available today: 1) projection screen systems; and 2) self-illuminating screen systems. Projection screen systems employ an external projector that is spaced from a passive screen surface to illuminate the screen surface with the visible video display generated by the projector. Self-illuminating screen systems do not employ an external projector. Rather, self-illuminating screen systems employ any of a variety of technologies that generate the video display at or near the surface of the screen.
Most conventional video display systems employ a relatively flat screen surface on which images are displayed. Such conventional flat video screen surfaces provide no depth cueing (i.e., 3D effect) unless, for projection-type screen systems, multiple projectors and/or 3D stereo glasses are employed. However, the use of multiple projectors and 3D stereo glasses is cost prohibitive for most video applications.
It has recently been discovered that enhanced depth cueing can be provided without the use of multiple projectors or stereo glasses by employing a specially designed concave video screen. U.S. Pat. No. 6,188,517 (assigned to Phillips Petroleum Company) describes such a concave video screen. The screen described in U.S. Pat. No. 6,188,517 generally comprises a concave semi-dome ceiling section, a flat semi-circular floor section, and a semi-cylindrical wall section edgewise joined between the ceiling section and the floor section. While this configuration provides enhanced depth cueing for certain viewing applications, it has been discovered that other video applications are best viewed on modified concave video screens in order to provide maximum viewing area, minimum distortion, and maximum depth cueing.
Because different video applications require different screen designs in order to provide optimum viewing, it is important for the shape of the video screen surface to be tailored for the specific application. However, tailoring the design of a concave video screen surface to a specific application can be an arduous task because, due to its complex shape, the screen surface is difficult to define. Further, once a suitable screen surface has been designed, it can be difficult to accurately manufacture the screen due to the complexity of the screen surface shape.
OBJECTS AND SUMMARY OF THE INVENTION
It is an object of this invention to provide 3D video display systems which are optimized for specific applications.
Another object oft his invention is to provide a simplified system for defining the shape of a complex concave video display surface.
A further object of this invention is to provide a method for designing optimized concave video screens.
A still further object of this invention is to provide a method for manufacturing optimized concave video screens.
A yet further object of the present invention is to provide optimized 3D video screens which provide enhanced depth cueing, maximum viewing area, and minimum distortion for specific viewing applications.
In accordance with one embodiment of the present invention, a method for designing a concave 3D video display surface for a self-illuminating video screen system is provided. The display surface extends generally inwardly from a front edge of the display surface. The display surface includes an equator dividing the display surface into a normally upper portion and a normally lower portion. The design method includes the steps of: (a) determining a maximum display surface width (X
max
); (b) determining a maximum display surface height above the equator (Z
max
); (c) determining a rounded corner radius (r
c
) for the front edge; and (d) calculating the location of a plurality of display surface points by inputting X
max
, Z
max
, and r
c
into a master equation. front edge; and (d) calculating the location of a plurality of display surface points by inputting X
max
, Y
max
, Z
max
, and r
c
into a master equation.
In accordance with another embodiment of the present invention, a concave 3D self-illuminating video screen system is provided. The video screen system comprises a display surface having a shape at least substantially characterized by the following master equation:
y
=
(
[
1
-
(
&LeftBracketingBar;
x
&RightBracketingBar;
P
a
P
)
]
·
b
P
)
1
P
,
wherein
a
=
X
ma
x
2
if
&LeftBracketingBar;
z
&RightBracketingBar;
<
(
X
ma
x
2
-
r
c
)
,
a
=
(
X
ma
x
2
-
r
c
)
+
r
c
2
-
(
&LeftBracketingBar;
z
&RightBracketingBar;
-
(
X
m
ax
2
-
r
c
)
)
2
if
&LeftBracketingBar;
z
&RightBracketingBar;
≥
(
X
m
ax
2
-
r
c
)
,
b
=
(
1
-
z
2
Z
ma
x
2
)
·
(
X
m
ax
2
)
2
,
and
P
=
2
-
(
k
·
&LeftBracketingBar;
z
&RightBracketingBar;
Z
m
ax
)
,
wherein X
max
is in a range of from about 6 inches to about 1200 inches, wherein Z
max
is in a range of from about 0.1 X
max
to about 0.5 X
max
, wherein r
c
is in a range of from about 0 to about 0.5 X
max
, wherein k is in a range of from 0.1 to about 0.95, wherein the display surface extends relative to orthogonal X, Y, and Z axes, wherein x is the orthogonal distance from the Y-Z plane to the display surface, wherein y is the orthogonal distance from the X-Z plane to the display surface, wherein z is the orthogonal distance from the X-Y plane to the surface, and wherein the actual position of each point defining the display surface varies by less than 0.1 X
max
from the calculated position of the point as defined by the master equation.
In accordance with still another embodiment of the present invention, a 3D self-illuminating video screen system is provided. The video screen system generally comprises a housing and a concave self-illuminating video screen supported by the housing. The concave self-illuminating video screen includes a display surface having a shape at least substantially characterized by the following equation:
y
=
(
[
1
-
(
&LeftBracketingBar;
x
&RightBracketingBar;
P
a
P
)
]
·
b
P
)
1
P
,
wherein
a
=
X
ma
x
2
if
&LeftBracketingBar;
z
&RightBracketingBar;
<
(
X
ma
x
2
-
r
c
)
,
a
=
(
X
ma
x
2
-
r
c
)
+
r
c
2
-
(
&LeftBracketingBar;
z
&RightBracketingBar;
-
(
X
m
ax
2
-
r
c
)
)
2
if
&LeftBracketingBar;
z
&RightBracketingBar;
≥
(
X
m
ax
2
-
r
c
)
,
b
=
(
1
-
z
2
Z
ma
x
2
)
·
(
X
m
ax
2
)
2
,
and
P
=
2
-
(
k
·
&LeftBracketingBar;
z
&RightBracketingBar;
Z
m
ax
)
,
wherein X
max
is in a range of from about 12 to about 60 inches, wherein Z
max
is in a range of from about 0.25 X
max
to about 0.45 X
max
, wherein r
c
is less than about 0.1 X
max
, wherein k is in a range of from about 0.25 to about 0.75, wherein the display surface extends relative to orthogonal X, Y, and Z axes, wherein x is the orthogonal distance from the Y-Z plane to the surface, wherein y is the orthogonal distance from the X-Z plane to the surface, wherein z is the orthogonal distance from the X-Y plane to the surface, and wherein the actual position of each point defining the display surface va
Adams Russell
ConocoPhillips Company
Kelly Kameron D.
Koval Melissa J
LandOfFree
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