Abstract
Effects of the dynamic transfer function on the image quality as well as on the performance of electrooptical displays are discussed. The spatial- temporal transfer function of an imaging system is derived, and time- constant and spatial-speed calculations are performed. Computer simulation for image degradation is addressed, and degradation and restoration models are considered. It is shown that, by incorporating the concept of temporal response, it is possible to quantify degradation of the output image of an electrooptical display; this quantification can be employed in real-time techniques for restoration of motion-degraded images. (V.T.)