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I am transforming an image to frequency spectrum, convolving it with a kernel, then inverse-transforming it back.

I wanted to ask how I can handle the rounding errors which occur during the transformation.

Like when I transform an image, then immediately transform it back I have an average PSNR of 127

(I transform the pixels in float format between 0.0 and 1.0 )

Is it possible to calculate the errors and correct them?

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To give a better answer, I'd like to ask you, why are you concerned about numerical accuracy? Is it causing problems? Or are you just measuring and seeing? –  Nayuki Minase Aug 12 '11 at 2:44
    
I am just concerned that too much image information gets lost, when I apply more convolution filters to an image. –  Marco Aug 12 '11 at 5:51
    
Ah okay. Now by PSNR=127, do you actually mean 127 (which is 21 dB) or 127 dB? Also, what number type are you using - float, double, or something else? –  Nayuki Minase Aug 12 '11 at 14:40
    
No it's 127 dB. And I'm using float. Using double would lower the performance, right? –  Marco Aug 18 '11 at 6:00
    
127 dB is plenty =). And yes, double would use more memory than float, but you'll have to benchmark to see if it is actually a problem in practice. –  Nayuki Minase Aug 18 '11 at 13:49

1 Answer 1

up vote 2 down vote accepted

Short answer: If you want less rounding error, then you need a more accurate number format. Also, you cannot calculate the error.

More accurate floating-point formats include:

  • x87 80-bit extended precision (long double)
  • Fixed point with BigInteger
  • BigDecimal

Also, isn't a PSNR of 127 dB very good already?

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