System and method for photovoltaic system configuration specification identification with the aid of a digital computer

What is claimed is: 1. A system for photovoltaic system configuration specification identification with the aid of a digital computer, comprising: a computer comprising a processor and configured to: obtain measured photovoltaic production for a photovoltaic system operating at a known geographic location over a set time period; obtain a preexisting configuration for the photovoltaic system; search for optimal values for a plurality of variables in a configuration specification for the photovoltaic system, comprising determining optimal values comprising initial optimal values and final optimal values for a plurality of angles associated with the photovoltaic system using the measured photovoltaic production, wherein a constant horizon is assumed to account for diffuse irradiance insensitive to specific obstruction locations relative to the known geographic location when searching for one of the initial optimal values, and wherein the search is performed over a range of azimuth bins, each of the bins associated with a number of degrees, the computer further configured to determine the constant horizon in accordance with the equation: θ Constant ⁢ Horizon = cos - 1 ( ∑ i = 0 N - 1 cos 2 ⁢ θ i N ) where N is a number of azimuth bins; modify the preexisting configuration used by a production output controller for the photovoltaic system based on at least some of the optimal values for the variables in the configuration specification; and the production output controller configured to operate the photovoltaic system based on the modified configuration. 2. A system according to claim 1 , the computer further configured to adjust the constant horizon to account for effect on direct irradiance by evaluating an obstruction elevation angle for each of the azimuth bins. 3. A system according to claim 2 , the computer further configured to create an obstruction profile for the photovoltaic system using the obstruction elevations angles. 4. A system according to claim 3 , the computer further configured to: simulate a photovoltaic production for the photovoltaic system using one of the values being optimized and the obstruction profile; and compare the simulated photovoltaic production to the measured photovoltaic production, wherein the search is performed using a result of the comparison. 5. A system according to claim 4 , the computer further configured to calculate a relative absolute mean error (rMAE) between the simulated photovoltaic production and the measured photovoltaic production. 6. A system according to claim 5 , wherein at least some of the obstruction elevation angles that differ from the constant horizon angles and affect the direct irradiance reduce the rMAE. 7. A system according to claim 1 , wherein the plurality of angles comprise an azimuth angle, constant horizon obstruction angle, and tilt angle. 8. A system according to claim 7 , wherein the initial optimal values are determined before the final optimal values. 9. A system according to claim 8 , the computer further configured to determine an exact obstruction elevation angle following the determination of the initial optimal values and the final optimal values. 10. A method for photovoltaic system configuration specification identification with the aid of a digital computer, comprising: obtaining measured photovoltaic production for a photovoltaic system operating at a known geographic location over a set time period; obtaining a preexisting configuration for the photovoltaic system; searching for optimal values for a plurality of variables in a configuration specification for the photovoltaic system, comprising determining optimal values comprising initial optimal values and final optimal values for a plurality of angles associated with the photovoltaic system using the measured photovoltaic production, wherein a constant horizon is assumed to account for diffuse irradiance insensitive to specific obstruction locations relative to the known geographic location when searching for one of the initial optimal values, and wherein the search is performed over a range of azimuth bins, each of the bins associated with a number of degrees, the computer further configured to adjust the constant horizon to account for effect on direct irradiance by evaluating an obstruction elevation angle for each of the azimuth bins; modifying the preexisting configuration used by a production output controller for the photovoltaic system based on at least some of the optimal values for the variables in the configuration specification; and using the production output controller to operate the photovoltaic system based on the modified configuration, wherein the steps are performed by at least one suitably programmed computer. 11. A method according to claim 10 , the computer further configured to determine the constant horizon in accordance with the equation: θ Constant ⁢ Horizon = cos - 1 ( ∑ i = 0 N - 1 cos 2 ⁢ θ