Use of multiple calibrated ambient color sensor measurements to generate a single colorimetric value

What is claimed is: 1. A system for determining a colorimetric value, the system comprising: a plurality of ambient color sensors; a sensor control module configured to obtain a first plurality of color measurements, each color measurement obtained from a different one of the plurality of ambient color sensors at approximately a same time; a perceptual color space analysis module configured to, for each color measurement included in the first plurality of color measurements: calculate a plurality of perceptual color space coordinates for the color measurement relative to a respective plurality of reference white points, calculate a plurality of distances each corresponding to a different one of the plurality of perceptual color space coordinates and based on one or more components of the corresponding perceptual color space coordinate, and select the smallest of the plurality of distances as a minimum distance for the color measurement; a color sensor/measurement selection module configured to select a first set of color measurements from the first plurality of color measurements based on at least the minimum distance selected for each of the first set of color measurements being less than or equal to a threshold distance; and a color measurement fusion module configured to calculate a first colorimetric value based on the first set of color measurements. 2. The system according to claim 1 , wherein: the first set of color measurements includes a first color measurement and a second color measurement; the system further comprises a weight calculation module configured to: calculate a first weight based on at least the minimum distance selected for the first color measurement, and calculate a second weight based on at least the minimum distance selected for the second color measurement; the system is configured to: calculate a first calibrated colorimetric value for the first color measurement, and calculate a second calibrated colorimetric value for the second color measurement; and the color measurement fusion module is configured to determine the first colorimetric value based on a sum of a product of the first weight and the first calibrated colorimetric value and a product of the second weight and the second calibrated colorimetric value. 3. The system according to claim 2 , further comprising a lighting cluster selection module configured to, for each color measurement included in the first set of color measurements: select an assigned lighting cluster for the color measurement from a plurality of lighting clusters including the assigned lighting cluster based on the color measurement being most similar to the assigned lighting cluster, and calculate a similarity of the color measurement to the assigned lighting cluster; wherein the weight calculation module is configured to: calculate the first weight further based on the similarity calculated for the first color measurement, and calculate the second weight further based on the similarity calculated for the second color measurement. 4. The system according to claim 1 , further comprising a lighting cluster selection module configured to, for each color measurement included in the first plurality of color measurements: select an assigned lighting cluster for the color measurement from a plurality of lighting clusters including the assigned lighting cluster based on the color measurement being most similar to the assigned lighting cluster, and calculate a similarity of the color measurement to the assigned lighting cluster; wherein the color sensor/measurement selection module is configured to select the first set of color measurements from the first plurality of color measurements based further on the similarity calculated for each of the first set of color measurements being within a threshold similarity. 5. The system according to claim 4 , wherein: each of the plurality of lighting clusters has a corresponding cluster centroid; and the lighting cluster selection module configured to perform the selection of an assigned lighting cluster from a plurality of lighting clusters for a color measurement by determining which of the plurality of lighting clusters has a corresponding cluster centroid closest to the color measurement. 6. The system according to claim 4 , wherein: the first set of color measurements includes a first color measurement and a second color measurement; the system further comprises a weight calculation module configured to: calculate a first weight based on at least the similarity calculated for the first color measurement, and calculate a second weight based on at least the similarity calculated for the second color measurement; the system is configured to: calculate a first calibrated colorimetric value for the first color measurement, and calculate a second calibrated colorimetric value for the second color measurement; and the color measurement fusion module is configured to determine the first colorimetric value based on a sum of a product of the first weight and the first calibrated colorimetric value and a product of the second weight and the second calibrated colorimetric value. 7. The system according to claim 6 , further comprising a cluster transformation module configured to: select transformation parameters associated with the assigned lighting cluster selected for the first color measurement; and calculate the first calibrated colorimetric value by converting the first color measurement using the selected transformation parameters. 8. A method for determining a colorimetric value with multiple ambient color sensors, the method comprising: obtaining a first plurality of color measurements, each color measurement obtained from a different one of a plurality of ambient color sensors at approximately a same time; for each color measurement included in the first plurality of color measurements: calculating a plurality of perceptual color space coordinates for the color measurement relative to a respective plurality of reference white points, calculating a plurality of distances each corresponding to a different one of the plurality of perceptual color space coordinates and based on one or more components of the corresponding perceptual color space coordinate, and selecting the smallest of the plurality of distances as a minimum distance for the color measurement; selecting a first set of color measurements from the first plurality of color measurements based on at least the minimum distance selected for each of the first set of color measurements being less than or equal to a threshold distance; and calculating a first colorimetric value based on the first set of color measurements. 9. The method according to claim 8 , wherein: the first set of color measurements includes a first color measurement and a second color measurement; and the calculating the first colorimetric value comprises: calculating a first weight based on at least the minimum distance selected for the first color measurement, calculating a second weight based on at least the minimum distance selected for the second color measurement, calculating a first calibrated colorimetric value for the first color measurement, calculating a second calibrated colorimetric value for the second color measurement, and determining the first colorimetric value based on a sum of a product of the first weight and the first calibrated colorimetric value and a product of the second weight and the second calibrated colorimetric value. 10. The method according to claim 9 , further comprising: for each color measurement included in the first set of color measurements: selecting an assigned lighting cluster