System and method for using multiple beams to respectively scan multiple regions of an image
DCFirst Claim
1. An image system, comprising:
- a screen having spatially discrete first and second regions with adjustable brightness levels; and
a beam generator operable to direct first and second electromagnetic off beams and first and second electromagnetic on beams onto the first and second regions, respectively, the first and second off beams respectively operable to change the brightness levels of the first and second regions according to a first polarity, and the first and second on beams operable to change the brightness levels of the first and second regions according to a second polarity.
2 Assignments
Litigations
0 Petitions
Accused Products
Abstract
An image system includes a screen and a beam generator. The screen has first and second regions with adjustable brightness levels. The beam generator directs first and second electromagnetic off beams and first and second electromagnetic on beams onto the first and second regions, respectively. The first and second off beams respectively change the brightness levels of the first and second regions according to a first polarity, and the first and second on beams change the brightness levels of the first and second regions according to a second polarity. For example, the system may simultaneously scan multiple tiles of an image onto respective regions of the display screen with respective image (on) beams, and erase the regions with respective erase (off) beams. Scanning an image as multiple tiles often provides the image with a higher resolution for a given scan rate, and using on and off beams often increases the quality of the image.
52 Citations
17 Claims
-
1. An image system, comprising:
-
a screen having spatially discrete first and second regions with adjustable brightness levels; and
a beam generator operable to direct first and second electromagnetic off beams and first and second electromagnetic on beams onto the first and second regions, respectively, the first and second off beams respectively operable to change the brightness levels of the first and second regions according to a first polarity, and the first and second on beams operable to change the brightness levels of the first and second regions according to a second polarity. - View Dependent Claims (2, 3, 4, 5)
the first off beam has a different wave length than the first and second on beams; and
the second off beam has a different wave length than the first and second on beams.
-
-
4. The image system of claim 1 wherein:
-
the first and second on beams are operable to increase the brightness levels of the first and second regions, respectively; and
the first and second off beams are operable to decrease the brightness levels of the first and second regions, respectively.
-
-
5. The image system of claim 1, further comprising an illuminator operable to illuminate the screen.
-
6. An image system, comprising:
-
a screen having first and second sections, each section having respective multiple regions with adjustable brightness levels; and
an image generator operable to respectively generate first and second portions of an image on the first and second sections of the screen by directing first and second electromagnetic off beams and first and second electromagnetic on beams onto the first and second sections, respectively, the first and second off beams respectively operable to change the brightness levels of the regions in the first and second sections according to a first polarity and the first and second on beams operable to change the brightness levels of the regions in the first and second sections according to a second polarity. - View Dependent Claims (7)
-
-
8. An image system, comprising:
-
first and second screens each having respective regions with adjustable brightness levels; and
an image generator operable to respectively generate first and second portions of an image on the first and second screens by directing first and second electromagnetic off beams and first and second electromagnetic on beams onto the first and second screens, respectively, the first and second off beams respectively operable to change the brightness levels of the regions of the first and second screens in a first direction and the first and second on beams operable to change the brightness levels of the regions of the first and second screens in a second direction that is opposite to the first direction. - View Dependent Claims (9, 10)
scan the first off and on beams back and forth across the first screen; and
scan the second off and on beams back and forth across the second screen.
-
-
11. A method, comprising:
-
directing a first electromagnetic off beam onto a first region of a screen to change the brightness level of the first region in a first off direction;
directing a second electromagnetic off beam onto a second region of the screen to change the brightness level of the second region in a second off direction;
directing a first electromagnetic on beam onto the first region to change the brightness level of the first region in a first on direction; and
directing a second electromagnetic on beam onto the second region to change the brightness level of the second region in a second on direction. - View Dependent Claims (12, 13, 14)
directing the first off beam onto the first region of the screen before directing the first on beam onto the first region; and
directing the second off beam onto the second region of the screen before directing the second on beam onto the second region.
-
-
13. The method of claim 11 wherein:
-
directing the first off beam comprises directing the first off beam onto the first region to change the reflectivity of the first region in the first off direction;
directing the second off beam comprises directing the second off beam onto the second region to change the reflectivity of the second region in the second off direction;
directing the first on beam comprises directing the first on beam onto the first region to change the reflectivity of the first region in the first on direction; and
directing the second on beam comprises directing the second on beam onto the second region to change the reflectivity of the second region in the second on direction.
-
-
14. The method of claim 11, further comprising illuminating the first and second regions of the screen.
-
15. A method, comprising:
-
directing a first electromagnetic off beam onto a first screen to change the brightness levels of multiple first regions of the first screen in a first off direction;
directing a second electromagnetic off beam onto a second screen to change the brightness levels of multiple second regions of the second screen in a second off direction;
directing a first electromagnetic on beam onto the first screen to change the brightness levels of the first regions in a first on direction; and
directing a second electromagnetic on beam onto the second screen to change the brightness levels of the second regions in a second on direction. - View Dependent Claims (16, 17)
directing the first off and on beams comprises scanning the first off and on beams back and forth across the first screen; and
directing the second off and on beams comprises scanning the second off and on beams back and forth across the second screen.
-
Specification