Kuchenbecker
James Kuchenbecker, Seattle, WA US
Patent application number | Description | Published |
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20140063347 | Myopia-Safe Video Displays - In a first aspect, the present invention provides methods for creating video signals including (a) receiving an input video signal including an input red component, an input green component, and an input blue component; (b) determining (i) that a magnitude of the input red component is greater than a magnitude of the input green component and (ii) a differential between the magnitude of the input red component and the magnitude of the input green component; and (c) sending an output video signal including an output red component, an output green component, and an output blue component, where at least one of the following is true: (i) the output red component is decreased by a fractional amount relative to the input red component based on the differential; and/or (ii) the output green component is increased by a fractional amount relative to the input green component based on the differential, and the output blue component is increased by a fractional amount relative to the input blue component based on the differential. | 03-06-2014 |
James A. Kuchenbecker, Seattle, WA US
Patent application number | Description | Published |
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20120172419 | REAGENTS AND METHODS FOR MODULATING CONE PHOTORECEPTOR ACTIVITY - The present invention provides reagents and methods for modulating cone photoreceptor activity, and devices for assessment of cone photoreceptor activity. | 07-05-2012 |
20140080900 | REAGENTS AND METHODS FOR MODULATING CONE PHOTORECEPTOR ACTIVITY - The present invention provides reagents and methods for modulating cone photoreceptor activity, and devices for assessment of cone photoreceptor activity. | 03-20-2014 |
Mark Kuchenbecker, Rosenberg, TX US
Patent application number | Description | Published |
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20130080102 | Measuring The Phase Of Received Signals - The present disclosure relates to a method to determine the phase of a signal when transmitter and receiver circuits use separate clocks. A discrepancy between the separate clocks is determined, as is a correction factor between the separate clocks. The phase is determined using a measured time of arrival of the signal, the determined discrepancy, and the determined correction factor. A drift factor and an expected start time of a pulse sequence may be used to determine the discrepancy. A start time of a pulse within the pulse sequence is determined and used to determine the correction factor. The method works by either absolute synchronization of the separate clocks, or by making the measurements independent of clock synchronization. | 03-28-2013 |