Patent ID: 8848060
Filing Date: 2014-09-30
Classification: H04N

Abstract:
1. A synthetic infrared image injection apparatus for simulating an electro-optic head and injecting its simulated images into a signal process part so as to evaluate the performance of an infrared image seeker comprising: an image input module for receiving the images from a channel synthetic image generation apparatus and extracting an effective area from the received images; a first pixel process module for performing an image process so as to simulate characteristic effect of electro-optic head model in the images and comprising a window heating process part for adding a heating irradiance, which is due to a temperature rise of the electron optics head, to a target irradiance; a system blurring process part for simulating an image deterioration owing to the characteristic of the electron optics head; and a noise process part for simulating noises of the electro-optic head; and a second pixel process module for realizing dead and hot pixels and an automatic gain comprising: a dead and hot pixel modeling part for realizing a dead pixel and a hot pixel based on the pre-set criteria; an automatic gain control part for improving a distinction of the target and the background by increasing a contrast of the received images; and a saturation process part for processing a saturation effect of a visible ray sensor, wherein an irradiation value table by hour of a window of the electro-optic head, which is calculated by applying the temperature value according to a flight time of the window, is uploaded to a FPGA memory and then, the window heating process part serves to add the window irradiation to the target image irradiation, thereby performing the window heating process, and the second pixel process module serves to receive the images, which are 15˜25% larger than the optical viewing angle of the electron optics head, from the channel synthetic image generation apparatus and perform X and Y coordinate transformation and rotation angle transformation in real time in accordance with a frame sync of the signal process part according to a transformation of a sight and a sight rotation angle by using an Affine Transformation.