NonUniformity Correction (NUC) for Thermal Camera Sensors Importance

Non Uniformity Correction. An example of NonUniformity Correction (NUC) of Lake Geneva thermal Image uniformity and accurate radiometric calibration are key features of state-of-the-art infrared cameras Hence, non uniformity correction includes both gain and offset correction

It's possible to manually initiate a NUC even when the camera doesn't sense that it is necessary To improve accuracy, the camera measures the IR radiation from its own optics and then adjusts the image based on those readings

An example of NonUniformity Correction (NUC) of Lake Geneva thermal

Non-uniformity correction (NUC) is a process used in thermal imaging cameras to improve image quality by correcting pixel-to-pixel variations. Several techniques are reported in the literature to correct the image through NUC techniques File Attachment(s) File Type pdf NUC-ITC.pdf (121.52 KB) Answers others found helpful.

matlab_non_uniformity_correctionOF_infrared_images/main.m at main. Non-uniformity correction (NUC) adjusts for minor detector drift that occurs as the scene and environment change Over the past years several non-uniformity correction and radiometric calibration techniques have been developed

An example of NonUniformity Correction (NUC) of Lake Geneva thermal. Thermal imaging sensors are sophisticated devices that require precise temperature readings Several techniques are reported in the literature to correct the image through NUC techniques