Would like to get help from the community for the following problem: I have two images of faces, one is taken with normal lighting conditions (outdoor or indoor, day or night) and one is taken immediately after the first one but with additional lighting from a bright color screen, e.g. blue Color screen of an ipad or iphone.

I hope to get a grayscale image, where the intensity represents the area in the faces affected by the lighting compensation from the screen. There are two challenges:

  1. Face may have moved a bit between the two images. So simple background subtraction doesn't work

  2. i want the method to work in various ambience lighting conditions.

  3. The lighting from the screen projected to the face could be weak and may hardly detected by eyes under some ambience lighting conditions

Ideally I could obtain a grayscale image which represents the screen lighting. If this goal is too difficult, it is also ok to divide the face into multiple regions and get a summary about how much illumination has changed for each region.

I use the two images of my hand as illustration. In practice, the blue light could be very weak and the hue range may vary. So the method of simply using Hue range does not work well.

Hand image under ambient light

Hand image under the same ambient light and also the blue screen light

  • is it possible to upload those sample images? – Jeru Luke Mar 24 '17 at 5:47
  • @JeruLuke, I have uploaded two images of my hands – tudali0928 Mar 24 '17 at 14:36
  • Please upload the images in the question my clicking the edit option. – Jeru Luke Mar 24 '17 at 14:44
  • Why do you say hue is not an appropriate choice. There appears to be a distinct difference between the two images visualizing the hue space. – Jeru Luke Mar 25 '17 at 9:53
  • Depending on the ambient condition, the blue color may not look so blue. For example, if the ambient light is sunlight, the ambient light is yellow or white, the hue range of the screen light may be very different. If I hard code a hue range, it may not work properly. Maybe we could compare the two images, and by comparing we get the range of Hue of the effective screen light. Then I could use the Hue range method. However, I am not sure how to best compare the two images to extract the hue range of the blue light. – tudali0928 Mar 25 '17 at 9:59

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