What does IFOV describe?

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Prepare for the Infrared Training Center Level 1 Exam. Explore multiple choice questions and in-depth explanations to enhance your understanding of infrared thermography. Get ready for your certification and advance your career!

Multiple Choice

What does IFOV describe?

Explanation:
IFOV describes the angular size of the scene that a single pixel (detector element) sees. It’s the per-pixel field of view, expressed in milliradians (MRAD). This is different from the overall field of view, which is the entire scene the camera can image, and from the spectral range, which is the wavelengths the sensor detects. The practical importance is that IFOV links to ground sample distance: ground distance per pixel ≈ distance to target × IFOV (in radians). For example, at 1,000 meters distance, an IFOV of 0.25 milliradians yields about 0.25 meters per pixel on the ground. A smaller IFOV means higher resolution because each pixel covers a smaller ground area. IFOV is determined by the pixel size and the lens focal length (roughly IFOV ≈ pixel size / focal length, in radians).

IFOV describes the angular size of the scene that a single pixel (detector element) sees. It’s the per-pixel field of view, expressed in milliradians (MRAD). This is different from the overall field of view, which is the entire scene the camera can image, and from the spectral range, which is the wavelengths the sensor detects. The practical importance is that IFOV links to ground sample distance: ground distance per pixel ≈ distance to target × IFOV (in radians). For example, at 1,000 meters distance, an IFOV of 0.25 milliradians yields about 0.25 meters per pixel on the ground. A smaller IFOV means higher resolution because each pixel covers a smaller ground area. IFOV is determined by the pixel size and the lens focal length (roughly IFOV ≈ pixel size / focal length, in radians).

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