Well am referring the following paper and trying to implement the algorithm as given in matlab

The only problem is how do i find a noisy pixel i.e **Pixel with impulse noise**?

X seems to be the impulse pixel in an image which i have to calculate

_

```
____________________________________________
Input – Noisy Image h
_______________________________________________
Step 1: Compute X
for every pixel repeat steps from 2 to 7
Step 2: Initialize w = 3
Step 3: If X(i,j) ≠ Impulse pixel
goto step 7
Step 4: ∆i,j = { h(i1,j1) | i-(w-1)/2 ≤ i1 ≤ i+(w-1)/2,
j-(w-1)/2 ≤ j1 ≤ j+(w-1)/2}
b=no. of black pixels in the window
w=no. of white pixels in the window
Step 5: If ∆i,j ≠ NULL
p(i,j) = mean(∆i,j
)
d(i,j) = | h(i,j) – p(i,j) |
else if (w < wmax)
w=w+2
goto step 4
else
if (b>w)
h(i,j)=0
else
h(i,j)=255
Step 7: Goto next pixel
Step 8: Calculate threshold t, from detailed coefficient
matrix d
for every pixel
Step 9: If (d(i,j)>t)
h(i,j)=p(i,j)
____________________________
```

**Edit:** To implement the PSM or the median filter method we
need to set some parameters and a threshold value. This
threshold value is dependent on the image and the noise
density. So, to restore different images we need to check for
a range of threshold values and find out the best one. So, in
our proposed algorithm we removed the need to define a threshold value. The algorithm is intelligent and determines
the threshold automatically.