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I've been working on generating noise using Perlin Noise and FBM as I understand it and I've seem to come into a bit of a problem.

The images I am generating seem to be too grey when they're meant to be greyscale but I see no variations of whites or blacks.

An example of this image is (This is generated using 8 octaves)

Perlin Noise example

An image of what I am expecting to produce;

enter image description here

I am generating the noise as follows;

float result = 0.0f;
  float amp = 1.0f;
  float frequency = 2.0f;

  float maxAmplitude = 0.0f;
  int i = _octaves;
  while (i--){
  result += noise(x * frequency, y * frequency, z * frequency) * amp;
  frequency *= 2.0f;
  maxAmplitude += amp;
  amp *= 0.5f;
  }
  return result / maxAmplitude;
  }

where the noise function is Ken Perlin's Improved Noise function found here; http://mrl.nyu.edu/~perlin/noise/ and I am using the default permutation table.

Then as I generate the images, I do the following to get a greyscale image;

ppm_image.pixel_colour[kk] = 255.0f  * noise;

I was just wondering how I can generate the same heightmap with a wider variation in the colours (more whites and blacks rather than just narrow greys).

  • I only know a little bit about Perlin noise, but I'm not sure what you are asking. Can you show an example image of what you want compared to the image you get? If you want greater contrast between lights and darks, could you do some post-processing and increase the contrast using a known technique? – eigenchris Jan 22 '15 at 18:36
  • Updated my question. Note in the example one there are more tones of black, I would like something akin to this. – Ryanas Jan 22 '15 at 19:01
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I've generally find that I need to apply some manner of histogram equalization as a post process to noise data. This usually works for me:

float min = data[0];
float max = data[0];
for (float& f : data){
  if(min > f)
    min = f;
  if(max < f)
    max = f;
}
for (float& f : data){
  f = (f-min) / (max-min);      
}

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