Relative effects of distortion and noise on target acquisition: the advisability of image restoration

Any image acquired by optical, electro-optical, or electronic means is likely to be degraded by the environment. The resolution of the acquired image depends on the total modulation transfer function (MTF) of the system and the additive noise. Image restoration techniques can improve image resolution significantly; however, as the noise increases, improvements via image processing become more limited because im- age restoration increases the noise level in the image. We characterize the influence of the MTF and noise level on human target acquisition probability to ascertain the advantages, if any, of image restoration. Con- ditions when restoration would be advisable are determined. © 1998 So- ciety of Photo-Optical Instrumentation Engineers. (S0091-3286(98)01007-1)

[1]  R. Hufnagel,et al.  Modulation Transfer Function Associated with Image Transmission through Turbulent Media , 1964 .

[2]  D. Fried Optical Resolution Through a Randomly Inhomogeneous Medium for Very Long and Very Short Exposures , 1966 .

[3]  Norman S. Kopeika,et al.  Imaging through the atmosphere: practical instrumentation-based theory and verification of aerosol modulation transfer function: reply to comment , 1995 .

[4]  Frederick A. Rosell Television Camera Tube Performance Data and Calculations , 1971 .

[5]  Norman S. Kopeika,et al.  High-resolution restoration of images distorted by the atmosphere, based upon average atmospheric modulation transfer function , 1994, Defense, Security, and Sensing.

[6]  Azriel Rosenfeld,et al.  Digital Picture Processing , 1976 .

[7]  Mohan M. Trivedi,et al.  Psychophysical experiments for evaluating target distinctness in images , 1995, Defense, Security, and Sensing.

[8]  I. Dror,et al.  Experimental comparison of turbulence modulation transfer function and aerosol modulation transfer function through the open atmosphere , 1995 .

[9]  Norman S. Kopeika,et al.  Target acquisition modeling for contrast-limited imaging: effects of atmospheric blur and image restoration , 1995 .

[10]  Norman S. Kopeika,et al.  Thermal imaging through the atmosphere: atmospheric MTF theory and verification , 1993, Other Conferences.

[11]  R. H. Willson,et al.  Recent Psychophysical Experiments and the Display Signal-to-Noise Ratio Concept , 1973 .

[12]  Charles S. Williams,et al.  Introduction To The Optical Transfer Function , 1989 .