Distributed solar energy prediction imaging

Therefore, the following is claimed: 1 . A solar forecast system, comprising: a computing environment; a network; and an imaging device communicatively coupled to the computing environment via the network, the imaging device comprising an imaging assembly and a computing device, the computing device being configured to: capture an array of images using the imaging assembly; combine the array of images into a combined-detail image; identify and track cloud features in the combined-detail image; generate a solar forecast using ray tracing based on the cloud features in the combined-detail image; and transmit the solar forecast to the computing environment via the network. 2 . The solar forecast system according to claim 1 , wherein the computing device of the imaging device is further configured to tone map the array of images to combine the array of images into the combined-detail image. 3 . The solar forecast system according to claim 1 , wherein: the imaging assembly comprises a wide-angle optical component to capture a wide view of sky in the array of images; and the computing device of the imaging device is further configured to transform the combined-detail image into a transformed image based on a calibration transformation matrix associated with the wide-angle optical component. 4 . The solar forecast system according to claim 1 , wherein: the imaging device comprises a plurality of imaging devices; and each of the plurality of imaging devices transmits a respective solar forecast to the computing environment via the network. 5 . The solar forecast system according to claim 4 , wherein the plurality of imaging devices comprise a distributed geographical network of solar forecast imaging devices. 6 . The solar forecast system according to claim 4 , wherein the computing environment is configured to combine the respective solar forecast from each of the plurality of imaging devices into a distributed geographic area solar forecast. 7 . The solar forecast system according to claim 4 , wherein the computing environment is configured to combine cloud height and horizontal projection data among the respective solar forecast from each of the plurality of imaging devices. 8 . A solar forecast method, comprising: capturing, by a computing device, an array of images using an imaging assembly; combining, by the computing device, the array of images into a combined-detail image; transforming, by the computing device, the combined-detail image into a transformed image; and tracking, by the computing device, cloud features in the transformed image. 9 . The solar forecast method according to claim 8 , wherein combining the array of images further comprises tone mapping the array of images. 10 . The solar forecast method according to claim 8 , wherein: the imaging assembly comprises a wide-angle optical component to capture a wide view of sky in the array of images; and transforming the combined-detail image comprises transforming, by the computing device, the combined-detail image into the transformed image based on a calibration transformation matrix associated with the wide-angle optical component. 11 . The solar forecast method according to claim 8 , further comprising generating, by the computing device, a solar forecast using the transformed image and based on the cloud features. 12 . The solar forecast method according to claim 11 , wherein: the transformed image comprises one of a plurality of transformed images captured over a distributed geographic area; and the method further comprises fusing, by the computing device, the plurality of transformed images to generate a distributed geographic area solar forecast. 13 . The solar forecast method according to claim 12 , wherein the fusing comprises combining, by the computing device, cloud height and horizontal projection data from the plurality of transformed images. 14 . An imaging device, comprising: a computing device; and an imaging assembly comprising a wide-angle optical component, the computing device being configured to: capture an array of images using the imaging assembly; combine the array of images into a combined-detail image; and transform the combined-detail image into a transformed image based on a calibration transformation matrix associated with the wide-angle optical component. 15 . The imaging device according to claim 14 , wherein the computing device is further configured to tone map the array of images to combine the array of images into the combined-detail image. 16 . The imaging device according to claim 14 , wherein the computing device is further configured to identify and track cloud features in the transformed image. 17 . The imaging device according to claim 16 , wherein the computing device is further configured to generate a solar forecast using ray tracing based on the cloud features in the transformed image. 18 . The imaging device according to claim 17 , wherein the computing device is further configured to transmit the solar forecast to a computing environment via a network. 19 . The imaging device according to claim 18 , wherein the computing environment receives a plurality of solar forecasts from a plurality of imaging devices in a distributed geographical network of imaging devices. 20 . The imaging device according to claim 19 , wherein the computing environment is configured to combine the plurality of solar forecasts into a distributed geographic area solar forecast.