System and method of dynamic color adjustment
First Claim
1. A method of controlling chromaticity of total light in a space, comprising:
- detecting the total light in the space by a sensor system, the total light including controlled light produced by a plurality of controllable light sources under the control of a lighting system, and uncontrolled light produced by at least one uncontrollable light source not under the control of the lighting system;
outputting a detected light signal from the sensor system based on the detected light, the detected light signal comprising a controlled light signal component due to the controlled light and an uncontrolled light signal component due to the uncontrolled light;
isolating the controlled light signal component from the detected light signal based on electrical properties currently being used to control the plurality of controllable light sources;
subtracting the controlled light signal component from the detected light signal to determine the uncontrolled light signal component;
dynamically selecting one of a plurality of calibration tables based on the uncontrolled light signal component, wherein each of the plurality of calibration tables describes a chromatic sensing response of the sensor system when the sensor system is exposed to incident light having different characteristics;
calibrating the uncontrolled light signal component based on the selected calibration table;
determining a chromaticity of the detected light based on the calibrated uncontrolled light signal component and the controlled light signal component; and
adjusting the electrical properties of the plurality of controllable light sources to adjust the chromaticity of the total light provided by the lighting system to approximate a target chromaticity.
1 Assignment
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Accused Products
Abstract
A method for controlling a chromaticity of total light provided by a lighting system includes detecting the total light by a sensor system, determining a component of the total light that is attributable to uncontrolled light, and selecting a calibration for a sensor based on the uncontrolled light, and using the calibration to adjust the output of the sensor system. The calibration tables may be based on spectral responsivity of the sensors in the sensor system and calibration functions rather than physical light sources. Relative intensities of controllable light sources having different xy values are then adjusted to cause the total light provided by the lighting system to approximate a target chromaticity. A daylighting system implementing this method includes controllable light sources with different xy values. The intensities of the controllable light sources are adjusted to augment sunlight to control the chromaticity of total light provided by the daylighting system.
11 Citations
18 Claims
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1. A method of controlling chromaticity of total light in a space, comprising:
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detecting the total light in the space by a sensor system, the total light including controlled light produced by a plurality of controllable light sources under the control of a lighting system, and uncontrolled light produced by at least one uncontrollable light source not under the control of the lighting system; outputting a detected light signal from the sensor system based on the detected light, the detected light signal comprising a controlled light signal component due to the controlled light and an uncontrolled light signal component due to the uncontrolled light; isolating the controlled light signal component from the detected light signal based on electrical properties currently being used to control the plurality of controllable light sources; subtracting the controlled light signal component from the detected light signal to determine the uncontrolled light signal component; dynamically selecting one of a plurality of calibration tables based on the uncontrolled light signal component, wherein each of the plurality of calibration tables describes a chromatic sensing response of the sensor system when the sensor system is exposed to incident light having different characteristics; calibrating the uncontrolled light signal component based on the selected calibration table; determining a chromaticity of the detected light based on the calibrated uncontrolled light signal component and the controlled light signal component; and adjusting the electrical properties of the plurality of controllable light sources to adjust the chromaticity of the total light provided by the lighting system to approximate a target chromaticity. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A lighting control unit for a lighting system, the lighting system comprising a plurality of controllable light sources, the lighting control unit comprising:
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a light separation unit configured to; receive an output signal of the lighting control unit, the output signal used to control light output of the plurality of controllable light sources; receive a total light signal from a sensor system; and use the output signal to separate the total light signal into an uncontrollable light signal representing uncontrollable light from at least one uncontrollable light source and a controllable light signal representing light from the plurality of controllable light sources; a calibration selector configured to select a calibration table from a plurality of calibration tables, wherein each of the plurality of calibration tables is associated with different uncontrolled lighting conditions; and a tuner module configured to; receive a calibrated uncontrollable light signal produced by applying the calibration table to the uncontrollable light signal; and adjust the output signal based on the calibrated uncontrollable light signal and the controllable light signal to provide total light approximating a target chrominance value. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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18. A method of controlling a chromaticity of total light in a space, comprising:
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outputting, by a sensor system, a detected light signal based on the total light detected in the space, the detected light signal comprising a controlled light signal component produced by light from a plurality of controllable light sources, and an uncontrolled light signal component produced by light from at least one uncontrollable light source; isolating, by a control system, the controlled light signal component from the detected light signal based on a current light setting of the plurality of controllable light sources; subtracting, by the control system, the controlled light signal component from the detected light signal to determine the uncontrolled light signal component; dynamically selecting, by the control system, a calibration table from a plurality of calibration tables based on the uncontrolled light signal component, wherein each of the plurality of calibration tables is associated with different uncontrolled lighting conditions; calibrating, by the control system, the uncontrolled light signal component using the selected calibration table; and adjusting, by the control system, the light settings of the plurality of controllable light sources to achieve a target chromaticity of the total light based on the calibrated uncontrolled light signal component and the controlled light signal component.
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Specification