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Superframing Technique Increases the Dynamic Range of Thermal Imaging
FLIR Systems proprietary 'superframing' technique has been developed to extend the effective scene brightness of a thermal image while maintaining its thermal contrast.
Although most thermal cameras can produce high-contrast images showing small temperature differences, they can only do so within a defined temperature range. However when extreme temperatures appear within a scene, the hottest parts of the image will be saturated and the coldest parts will appear black or noisy, resulting in a loss of image detail and invalid temperature measurements. This is a particular problem in R&D applications when imaging high-speed digital video of scenes with large temperature differences such as engine monitoring, rocket launches, or explosions.
The superframing technique developed by FLIR Systems involves varying the exposure, or integration time, of a FLIR thermal imaging camera from frame to frame in a cyclic manner and combining the resulting subframes into single superframes with greatly extended temperature ranges, enabling visualization of scenes featuring extreme temperature differences.
FLIR Systems, Inc. is a world leader in the design, manufacture, and marketing of sensor systems that enhance perception and awareness. FLIR's advanced systems and components are used for a wide variety of thermal imaging, situational awareness, and security applications, including airborne and ground-based surveillance, condition monitoring, navigation, recreation, research and development, manufacturing process control, search and rescue, drug interdiction, transportation safety, border and maritime patrol, environmental monitoring, and chemical, biological, radiological, nuclear, and explosives (CBRNE) threat detection.
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