# Calculate Intrinsics for a Thermal Camera?

I"m using a Thermal camera for a project and I'm a little stumped so as to how to think about calculating intrinsics for it. The usual camera's would determine different points on a chessboard or something similar, but the thermal camera won't really be able to differentiate between those points. Does anyone have any insight on what the intrinsics for thermal cameras would really look like?

Cheers!

EDIT - In addition to the great suggestions I currently have, I'm also considering using aluminum foil on the whites to create a thermal difference. Let me know what you think of this idea as well.

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which camera are you using? Any link? –  FlowOverStack Jun 1 at 5:33

This might or might not work, depending on the accuracy you need:

• Use a chessboard pattern and shine a really strong light at it. The black squares will likely get hotter than the white squares, so you might be able to see the pattern in the thermal image.
• Put small lightbulbs on the edges of a chessboard pattern, light them, wait until they become hot, use your thermal camera on it.
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Good one, this was going to be my suggestion. –  jilles de wit May 2 '11 at 9:24

If you have a camera that is also sensitive to the visible light end of the spectrum (i.e. most IR cameras - which is what most Thermography is based on after all) then simply get a IR cut-off filter and fit this to front of the cameras lens (you can get some good c-mount based ones). Calibrate as normal to the fixed optics then remove the filter. Intrinsics should be the same - since optical properties are the same (for most purposes).

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This problem is addressed in A Mask-Based Approach for the Geometric Calibration of Thermal Infrared Cameras, which basically advocates placing an opaque mask with checkerboard squares cut out of it in front of a radiating source such as a computer monitor.

Related code can be found in mm-calibrator.

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You may want to consider running a thermal resistor wire on the lines of the pattern (you also need a power source).

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See also the function `findCirclesGrid`.