Prediction system for short-term solar irradiance and method for operating the same

What is claimed is: 1. A prediction system for short-term solar irradiance comprising: one or more sky imager, including a reflecting unit and an imaging unit, said imaging unit receiving the reflection light from said reflecting unit and giving a plurality of sky images based on an imaging frequency; an operational module, connected with said sky imager, acquiring said plurality of sky images, calculating a plurality of shading values of sunlight using said plurality of sky images, calculating a plurality of predicted power generation values of a solar power plant, and calculating a trend value of power generation using said imaging frequency and said plurality of predicted power generation values; and a power deployment module, connected with said operating module, and adjusting the power generation of a backup power source using said trend value of power generation. 2. The prediction system for short-term solar irradiance of claim 1 , wherein the calculation for said plurality of shading values of sunlight includes using a plurality of pixels of cloud clusters in said plurality of sky images and the distance between said plurality of pixels and an origin as calculation parameters, and said origin is the location of the sun at the moment when said plurality of sky images are taken. 3. The prediction system for short-term solar irradiance of claim 1 , wherein said imaging frequency is once per minute. 4. The prediction system for short-term solar irradiance of claim 1 , wherein said sky imager is disposed at said solar plant. 5. A method for operating a prediction system for short-term solar irradiance comprising steps of: acquiring a plurality of sky images with an imaging frequency using a sky imager; analyzing a plurality of pixels of said plurality of sky images for giving cloud-thickness parameters of said plurality of pixels, and calculating shading values of sunlight of said plurality of sky images by using the distances between said plurality of pixels and the location of the sun as calculation parameters; calculating a plurality of predicted power generation values using said plurality of shading values of sunlight and a trend value of power generation according to said imaging frequency and said plurality of predicted power generation; and adjusting the power generation of a backup power source according to said trend value of power generation. 6. A method for operating a prediction system for short-term solar irradiance of claim 5 , wherein after said step of acquiring said plurality of sky images with said imaging frequency using said sky imager, further comprising a step of restoring said plurality of sky images to a plurality of planar sky images.