Abstract
In some applications of thermography, spatial orientation of the thermal infrared information can be desirable. By the photogrammetric processing of thermal infrared (TIR) images, it is possible to create 2D and 3D results augmented by thermal infrared information. On the augmented 2D and 3D results, it is possible to locate thermal occurrences in the coordinate system and to determine their scale, length, area or volume. However, photogrammetric processing of TIR images is difficult due to negative factors which are caused by the natural character of TIR images. Among the negative factors are the lower resolution of TIR images compared to RGB images and lack of visible features on the TIR images. To eliminate these negative factors, two methods of photogrammetric co-processing of TIR and RGB images were designed. Both methods require a fixed system of TIR and RGB cameras and for each TIR image a corresponding RGB image must be captured. One of the methods was termed sharpening and the result of this method is mainly an augmented orthophoto, and an augmented texture of the 3D model. The second method was termed reprojection and the result of this method is a point cloud augmented by thermal infrared information. The details of the designed methods, as well as the experiments related to the methods, are presented in this article.
Highlights
Infrared thermography (IRT) is a non-contact, non-destructive, and non-invasive technique [1] which can be carried out using measuring devices that are able to receive radiation from an object which has a temperature higher absolute zero [2]
The thermal infrared (TIR) image can be called as an IRT image [4], but when referring to photogrammetry, the term TIR
The sharpening method was designed mainly to create an orthophoto or a texture augmented with thermal infrared information derived from original TIR images
Summary
Infrared thermography (IRT) is a non-contact, non-destructive, and non-invasive technique [1] which can be carried out using measuring devices that are able to receive radiation (of a certain wavelength) from an object which has a temperature higher absolute zero [2]. In [34], it is possible to observe that when the temperature of a black body increases, the maximum of the spectral specific radiation is in shorter wavelengths. The atmosphere has its own energy and the radiant flux of the atmosphere is (1 − τ ) I ATM The summary of these three fluxes entering the device is called the equation of thermography and, using the knowledge referred to above, it is possible to determine the surface temperature of the examined object. TIR cameras which are used in common industrial applications are usually cameras with a microbolometer sensor [35] as a thermal detector with a wide range of wavelength detection Knowing the basic laws of thermography, the software of the TIR cameras recalculates the captured radiation to determine the temperature (possibly in ◦ C)
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