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hello i am recently working in image de-blurring, i just want to know that can i break the standard image degradation model {for an image of traffic signal where different vehicles are moving in different direction}

   g(x,y) = H[f(x,y)] + n(x,y) 

like that

   g1(x,y) = H1[f1(x,y)] + n(x,y) ;

   g2(x,y) = H2[f2(x,y)] + n(x,y) ;

   g3(x,y) = H3[f3(x,y)] + n(x,y) ;

     .....................
     .....................
     .....................
     .....................

   gm(x,y) = Hm[fm(x,y)] + n(x,y) 

here i am assuming that the whole image is degraded by different degradation functions, and same noise is added to different part of noise.

here f1(x,y) + f2(x,y) ......... + fm(x,y) = f(x,y).

Please suggest the correct concept. and tell me if i am going on wrong way.

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1 Answer 1

up vote 0 down vote accepted

I found answer of this question with slight changes...

we can decompose the image degradation model g(x,y) = H[f(x,y)] + n(x,y) as g(x,y) = H[f1(x,y)] + H[f2(x,y)] + H[f3(x,y)] ..... + H[fn(x,y)]

using the concept of Linearity if

g(x,y) = H[k1xf1(x,y) + k2xf2(x,y)] = k1xH[f1(x,y)]+ k2xH[f2(x,y)]

and if k1 = k2 = 1 then g(x,y) = H[f1(x,y)]+ H[f2(x,y)]

similarly we can get the following form

g(x,y) = H[f1(x,y)] + H[f2(x,y)] + H[f3(x,y)] ..... + H[fn(x,y)]

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