	US 12,079,547 B2
	Methods and systems for an automated design, fulfillment, deployment and operation platform for lighting installations
Benjamin James Harrison, Pasadena, CA (US); Shruti Koparkar, Pasadena, CA (US); Mark Reynoso, Encino, CA (US); Paul Pickard, Acton, CA (US); Raghuram L. V. Petluri, Cerritos, CA (US); Gary Vick, Northridge, CA (US); and Andrew Villegas, Los Angeles, CA (US)
Assigned to KORRUS, INC., Los Angeles, CA (US)
Filed by Korrus, Inc., Los Angeles, CA (US)
Filed on Jul. 26, 2022, as Appl. No. 17/815,062.
Application 17/815,062 is a continuation of application No. 16/702,873, filed on Dec. 4, 2019, granted, now 11,450,090.
Application 16/702,873 is a continuation of application No. 16/601,711, filed on Oct. 15, 2019, granted, now 11,386,641.
Application 16/601,711 is a continuation of application No. PCT/US2018/029380, filed on Apr. 25, 2018.
Claims priority of provisional application 62/562,714, filed on Sep. 25, 2017.
Claims priority of provisional application 62/491,137, filed on Apr. 27, 2017.
Prior Publication US 2023/0070767 A1, Mar. 9, 2023
This patent is subject to a terminal disclaimer.
Int. Cl. G06F 30/13 (2020.01); F21V 21/15 (2006.01); G05B 13/02 (2006.01); G06F 3/01 (2006.01); G06F 16/51 (2019.01); G06F 16/583 (2019.01); G06F 16/953 (2019.01); G06F 18/22 (2023.01); G06F 30/20 (2020.01); G06N 5/04 (2023.01); G06N 5/047 (2023.01); G06N 20/00 (2019.01); G06T 7/00 (2017.01); G06T 7/55 (2017.01); G06T 7/73 (2017.01); G06T 7/90 (2017.01); G06T 15/08 (2011.01); G06T 15/10 (2011.01); G06T 15/50 (2011.01); G06T 19/00 (2011.01); G06T 19/20 (2011.01); G06V 10/75 (2022.01); G16H 50/20 (2018.01); H04N 23/80 (2023.01); H04N 23/90 (2023.01); H05B 45/10 (2020.01); H05B 45/20 (2020.01); H05B 47/105 (2020.01); H05B 47/11 (2020.01); H05B 47/175 (2020.01); G06F 3/04847 (2022.01); G06N 3/04 (2023.01)

CPC G06F 30/13 (2020.01) [F21V 21/15 (2013.01); G05B 13/0265 (2013.01); G06F 3/011 (2013.01); G06F 16/51 (2019.01); G06F 16/5854 (2019.01); G06F 16/953 (2019.01); G06F 18/22 (2023.01); G06F 30/20 (2020.01); G06N 5/04 (2013.01); G06N 5/047 (2013.01); G06N 20/00 (2019.01); G06T 7/55 (2017.01); G06T 7/73 (2017.01); G06T 7/90 (2017.01); G06T 7/97 (2017.01); G06T 15/08 (2013.01); G06T 15/10 (2013.01); G06T 15/50 (2013.01); G06T 15/506 (2013.01); G06T 19/006 (2013.01); G06T 19/20 (2013.01); G06V 10/751 (2022.01); G16H 50/20 (2018.01); H04N 23/80 (2023.01); H04N 23/90 (2023.01); H05B 45/10 (2020.01); H05B 45/20 (2020.01); H05B 47/105 (2020.01); H05B 47/11 (2020.01); H05B 47/175 (2020.01); G06F 3/04847 (2013.01); G06N 3/0409 (2013.01); G06T 2200/24 (2013.01); G06T 2207/20081 (2013.01); G06T 2210/04 (2013.01); G06T 2210/56 (2013.01); G06T 2215/12 (2013.01); G06T 2215/16 (2013.01); G06T 2219/2012 (2013.01); G06T 2219/2024 (2013.01)]

20 Claims

1. A system comprising:

a four channel light emitting diode (LED) illumination source, wherein each one of the four channels is independently controllable for at least an amount of light output by a corresponding light emitting diode in the illumination source;

a set of mathematical models that define lighting effects of each of a plurality of color modes that, when processed with a map of LED illumination source channel control values for a plurality of target illumination colors by a processor produces a set of light intensity information for each of the plurality of target illumination colors; and

a computing architecture of the illumination source that receives an indication of a selected target illumination color and receives common sets of light intensity information for the target illumination color for each one of a plurality of selected color modes and controls the four channels of the illumination source to produce the target illumination color based on a set of light intensity information for a selected one of the color modes.