Abstract :
The totally blind image restoration problem is solved using an expectation maximization (EM) based learning technique. A new formulation on simultaneous recursive image and blur parameter identification and image restoration is given in a dynamic Bayesian network (DBN) framework. This technique incorporates optimal Kalman smoothing equations for maximum likelihood (ML) parameter identification and state estimation. Because of the computationally heavy processing of smoothing, we use a filtering approximation of the Kalman instead of Kalman smoothing. Experimental results are given using a 64/spl times/64 "Lena" image which is both noisy and artificially blurred.
Keywords :
"Image restoration","Kalman filters","Smoothing methods","Parameter estimation","Maximum likelihood estimation","Gaussian processes","Virtual colonoscopy","Bayesian methods","Equations","State estimation"
