Fast Adaptive Nonuniformity Correction for Infrared Focal-Plane Array Detectors

A novel adaptive scene-based nonuniformity correction technique is presented. The technique simultaneously estimates detector parameters and performs the nonuniformity correction based on the retina-like neural network approach. The proposed method includes the use of an adaptive learning rate rule in the gain and offset parameter estimation process. This learning rate rule, together with a reduction in the averaging window size used for the parameter estimation, may provide an efficient implementation that should increase the original method's scene-based ability to estimate the fixed-pattern noise. The performance of the proposed algorithm is then evaluated with infrared image sequences with simulated and real fixed-pattern noise. The results show a significative faster and more reliable fixed-pattern noise reduction, tracking the parameters drift, and presenting a good adaptability to scene changes and nonuniformity conditions.

[1]  M M Hayat,et al.  Statistical algorithm for nonuniformity correction in focal-plane arrays. , 1999, Applied optics.

[2]  S. Thomas Alexander,et al.  Adaptive Signal Processing , 1986, Texts and Monographs in Computer Science.

[3]  Melvin R. Kruer,et al.  Adaptive nonuniformity correction for IR focal-plane arrays using neural networks , 1991, Optics & Photonics.

[4]  V. Kvasnicka,et al.  Neural and Adaptive Systems: Fundamentals Through Simulations , 2001, IEEE Trans. Neural Networks.

[5]  Majeed M Hayat,et al.  Kalman filtering for adaptive nonuniformity correction in infrared focal-plane arrays. , 2003, Journal of the Optical Society of America. A, Optics, image science, and vision.

[6]  M. Kruer,et al.  Infrared focal plane array technology , 1991, Proc. IEEE.

[7]  Stephen C. Cain,et al.  Projection-based image registration in the presence of fixed-pattern noise , 2001, IEEE Trans. Image Process..

[8]  Abraham Friedenberg,et al.  Nonuniformity two-point linear correction errors in infrared focal plane arrays , 1998 .

[9]  Aaas News,et al.  Book Reviews , 1893, Buffalo Medical and Surgical Journal.

[10]  Majeed M Hayat,et al.  Scene-based nonuniformity correction for focal plane arrays by the method of the inverse covariance form. , 2003, Applied optics.

[11]  Melvin R. Kruer,et al.  Adaptive retina-like preprocessing for imaging detector arrays , 1993, IEEE International Conference on Neural Networks.

[12]  R. Driggers,et al.  Introduction to Infrared and Electro-Optical Systems , 1998 .

[13]  Bradley M. Ratliff,et al.  An algebraic algorithm for nonuniformity correction in focal-plane arrays. , 2002, Journal of the Optical Society of America. A, Optics, image science, and vision.

[14]  Jose C. Principe,et al.  Neural and adaptive systems , 2000 .

[15]  E Armstrong,et al.  Scene-based nonuniformity correction with video sequences and registration. , 2000, Applied optics.

[16]  Jose C. Principe,et al.  Neural and Adaptive Systems: Fundamentals through Simulations with CD-ROM , 1999 .

[17]  P. M. Narendra Reference-Free Nonuniformity Compensation For IR Imaging Arrays , 1980, Optics & Photonics.

[18]  John G. Harris,et al.  Nonuniformity correction of infrared image sequences using the constant-statistics constraint , 1999, IEEE Trans. Image Process..