Automated test systems and methods utilizing images to determine locations of non-functional light-emitting elements in light-emitting arrays

What is claimed is: 1. A testing system for testing a light-emitting device comprising a plurality of discrete light-emitting elements disposed over a substrate, the testing system comprising: a power source for energizing at least some of the discrete light-emitting elements; an imaging system for acquiring at least one image of all of the energized light-emitting elements within a field of view of the imaging system during energization of the light-emitting elements; and an analyzer for individually determining for each of the energized light-emitting elements within the field of view, from the at least one image, (i) at least one of the radiant flux or the luminous flux, and (ii) at least one optical characteristic comprising one or more of (a) one or more tristimulus color values, (b) chromaticity coordinates, (c) peak wavelength, (d) dominant wavelength, (e) correlated color temperature, (f) color rendering index, or (g) R9, wherein the analyzer is configured to, from the at least one image, determine locations of non-functional light-emitting elements. 2. The testing system of claim 1 , wherein the analyzer is configured to determine locations of non-functional light-emitting elements having at least one optical characteristic that is outside of a target range. 3. The testing system of claim 2 , wherein the target range is (i) pre-defined and stored within a memory of the analyzer, or (ii) determined at least in part from at least one optical characteristic of one or more of the imaged light-emitting elements. 4. The testing system of claim 1 , wherein the analyzer is configured to determine, from the at least one image, a collective optical characteristic of the imaged light-emitting elements. 5. The testing system of claim 1 , further comprising a probe card configured to electrically couple the power source to the light-emitting device. 6. The testing system of claim 1 , wherein the imaging system comprises at least one of a camera or an imaging colorimeter. 7. The testing system of claim 1 , wherein the at least one image consists of a single greyscale image of the imaged light-emitting elements. 8. The testing system of claim 1 , wherein the at least one image comprises at least three images collectively defining a tristimulus image. 9. The testing system of claim 1 , further comprising a housing for at least partially enclosing therewithin at least some of the light-emitting elements. 10. The testing system of claim 1 , wherein the analyzer is configured to detect, from the at least one image, a physical characteristic of the light-emitting device. 11. The testing system of claim 10 , wherein the physical characteristic comprises at least one of a temperature of at least one light-emitting element, a temperature of at least a portion of the substrate, a missing light-emitting element, a misoriented light-emitting element, one or more fiducial marks on the substrate, one or more marks on the substrate indicating an out-of-specification component, or a bar code disposed on the substrate. 12. The testing system of claim 1 , wherein the analyzer is configured to determine an electrical characteristic of the light-emitting device. 13. The testing system of claim 12 , wherein the electrical characteristic comprises at least one of current supplied to at least one light-emitting element, voltage drop across at least one light emitting element, current supplied to the energized light-emitting elements, voltage drop across the energized light-emitting elements, power supplied to at least one light-emitting element, or power supplied to the energized light-emitting elements. 14. The testing system of claim 1 , wherein: the light-emitting device comprises (i) a first and second spaced-apart power conductors, and (ii) a plurality of light-emitting strings, each light-emitting string (a) comprising a plurality of interconnected light-emitting elements spaced along the light-emitting string, (b) having a first end electrically coupled to the first power conductor, and (c) having a second end electrically coupled to the second power conductor, the power conductors supply power to each of the light-emitting strings, and the power source is configured to energize the energized light-emitting elements by energizing at least a portion of at least one light-emitting string. 15. The testing system of claim 14 , wherein: the power source is configured to energize the energized light-emitting elements by (i) energizing a first portion of a light-emitting string and, thereafter, (ii) energizing a second portion of the light-emitting string, wherein the first and second portions collectively include all light-emitting elements in the light-emitting string; and the imaging system is configured to (i) acquire a first image when the first portion of the light-emitting string is energized and (ii) acquire a second image when the second portion of the light-emitting string is energized. 16. The testing system of claim 14 , wherein the power source is configured to energize the energized light-emitting elements by energizing at least said portion of at least one light-emitting string without energizing any light-emitting elements not disposed within the at least one light-emitting string. 17. The testing system of claim 1 , further comprising: a supply roll for supplying the light-emitting device to the testing system; and a take-up roll for receiving the light-emitting device after testing, wherein the imaging system is positioned to (i) receive at least a portion of the light-emitting device from the supply roll and (ii) supply the at least a portion of the light-emitting device to the take-up roll after testing. 18. The testing system of claim 1 , wherein the analyzer is configured to determine, from the at least one image, at least one of a dimming performance, a color tuning performance, a temperature, or a response to a communication and/or control signal of the imaged light-emitting elements. 19. The testing system of claim 1 , further comprising a spectrometer for acquiring a spectrum corresponding to light emitted by the energized light-emitting elements within a field of view of the spectrometer during energization of the light-emitting elements. 20. A method of testing a light-emitting device comprising a plurality of discrete light-emitting elements disposed over a substrate, the method comprising: supplying power to at least some of the light-emitting elements of the light-emitting device for energization thereof; thereduring and with an imaging system, acquiring an image of at least some of the energized light-emitting elements; while acquiring the image, substantially preventing light other than light emitted by the energized light-emitting elements from reaching the imaging system; analyzing the image to individually determine, for each of the light-emitting elements in the image, (i) at least one of the radiant flux or the luminous flux, and (ii) an optical characteristic comprising one or more of (a) one or more tristimulus color values, (b) chromaticity coordinates, (c) peak wavelength, (d) dominant wavelength, (e) correlated color temperature, (f) color rendering index, or (g) R9; and analyzing the image to determine a location, on the light-emitting device, of a non-functional energized light-emitting element. 21. The method of claim 20 , further comprising analyzing the image to determine a collective optical characteristic of the energized light-emitting elements.