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[0033]In an aspect, a method of adjusting a tunable illuminating light source with a reflective display for a head mounted display to reduce chromatic artifacts in an image provided to a user's eye may include identifying a color associated with a chromatic-related artifact in a displayed image, and adjusting the tunable illuminating light source to reduce the brightness of the color associated with the chromatic-related artifact. The tunable illuminating li
Problems solved by technology
The presentation of content in the see-through display can be a complicated
Method used
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example 1
[0558]For a 26 deg display field of view and a 1280 pixel horizontally wide image, a pixel occupies 0.020 deg within the display field of view. If the frame rate of the full color images is 60 Hz, with three color sequential subframes images, the subframe time is 0.006 sec. The rotational speed of the head mounted display needed to produce one pixel of color breakup is then 3.6 deg / sec. If the number of horizontal pixels in the display field of view is reduced to 640 pixels and simultaneously the frame rate of the full color images is increased to 120 Hz, with three color sequential subframes images, the subframe time is reduced to 0.003, the size of a pixel is increased to 0.041 deg and the rotational speed to produce one pixel of color breakup is 14.6 deg / sec.
example 2
[0559]For a 26 deg display field of view and a 1280 pixel horizontally wide image, a pixel is 0.020 deg within the display field of view. If the smallest size that the user can detect for color breakup is one pixel wide, then a rotational speed of over 3.6 deg / sec is required if the subframe rate is 180 Hz, before color breakup is detected by the user. Even though the color breakup is an analog effect, the user's eye does not have the resolution to detect the color fringes that are present during movement below this speed. So below this rotational speed, color breakup management is not required.
example 3
[0560]For a 26 deg display field of view and a 1280 pixel horizontally wide image, a pixel is 0.020 deg within the display field of view. If the user can detect color breakup as small as one pixel wide, then a rotational speed of 3.6 deg / sec will require a shift of the subframes relative to each other of one pixel if the subframe rate is 180 Hz, to align the subframes so that color breakup is not visible to the user. If the user rotates their head at 15 deg / sec, then the subframes will require a shift of 4 pixels relative to one another to align the subframes so that color breakup is not visible. If the image frame begins with the display of the red subframe image, then no digital shifting is required for the red subframe image. A 4 pixel shift is required for the green subframe image. And, an 8 pixel shift is required for the blue subframe image. The next red subframe associated with the next image frame would then be effectively shifted 12 pixels relative to the previous red subfr...
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Abstract
An optical system for a head-worn computer includes a light source positioned within the head-worn computer and adapted to project polarized illuminating light towards a partially reflective partially transmissive surface such that the illuminating light reflects through a field lens and towards a reflective display. The illuminating light reflects off a surface of the reflective display, forming image light. The image light is then transmitted through the field lens and then through the partially reflective partially transmissive surface to a lower display optical system adapted to present the image light to an eye of a user wearing the head-worn computer.
Description
CLAIM OF PRIORITY[0001]This application is a continuation-in-part of U.S. Non-Provisional application Ser. No. 14 / 884,598, filed Oct. 15, 2015 (ODGP-2020-U01).[0002]U.S. Non-Provisional application Ser. No. 14 / 884,598 (ODGP-2020-U01) is a continuation-in-part of U.S. Non-Provisional application Ser. No. 14 / 813,969, entitled “SEE-THROUGH COMPUTER DISPLAY SYSTEMS”, filed Jul. 30, 2015 (ODGP-2017-U01).[0003]U.S. Non-Provisional application Ser. No. 14 / 813,969, filed Jul. 30, 2015 (ODGP-2017-U01) is a continuation-in-part of the following:[0004]U.S. Non-Provisional application Ser. No. 14 / 741,943, filed Jun. 17, 2015 (ODGP-2016-U01), which is a continuation-in-part of U.S. Non-Provisional application Ser. No. 14 / 163,646, filed Jan. 24, 2014 (ODGP-2002-U01);[0005]U.S. Non-Provisional application Ser. No. 14 / 160,377, filed Jan. 21, 2014 (ODGP-2001-U01);[0006]U.S. Non-Provisional application Ser. No. 14 / 172,901, filed Feb. 4, 2014 (ODGP-2003-U01);[0007]U.S. Non-Provisional application Ser....
Claims
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