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Optical Gas Imaging: The Professional Guide
Download the iBook to gain a greater understanding of optical gas imaging (OGI) technology and how it can help you find and repair gas leaks quickly, saving time, money, and the environment.
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Learn how to use Rapid Report in FLIR Thermal Studio Pro
Get the tips you need to streamline your reporting with Rapid Report in FLIR Thermal Studio Pro. Just watch this short video from the Infrared Training Center and you'll be ready to go.
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FLIR Introduces FLIR MIX™: A Breakthrough in Multispectral Infrared Imaging
FLIR introduces FLIR MIX™ Starter Kits, a revolutionary multispectral imaging solution that synchronizes high-speed thermal and visible imagery with precision. Designed for defense, commercial, and academic research, FLIR MIX delivers complete, spatiotemporally aligned datasets for faster, clearer insights.
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Surefire success: FLIR thermal cameras empower women firefighters
FLIR recently provided access to its high-performance K-series thermal imaging cameras as hundreds of female firefighters gathered at a major training event in Mexico. Around 460 women from various states in Mexico attended the event, all looking to improve their thermography skills and emergency response capabilities—with a little help from advanced FLIR technology.
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FLIR MIX Webinar: One Dataset with Spatial and Temporal Alignment
This 60-minute webinar will provide insight into the previous challenges of simultaneous thermal and visible imaging and discuss the new thermal imaging solution that captures and synchronizes high-speed thermal and visible imagery at up to 1,000 frames per second.
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Advancing Electrocaloric Research with FLIR Thermal Imaging at Queen’s University Belfast
Discover how Queen’s University Belfast used the FLIR A8583 thermal camera to study the electrocaloric effect, capturing real-time temperature changes in dielectric materials for future energy-efficient cooling solutions.
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Mastering Thermal Data Analysis with FLIR Research Studio 2025
Learn how FLIR Research Studio 2025 simplifies thermal data analysis with multi-window capability, docking camera controls, and intuitive features to optimize research workflows for scientists and engineers.
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Painting with Heat: Artist Uses FLIR Cameras to Make and Display His Heated Thermal Canvas
Thermal imaging often marvels its users with the ability to turn the invisible into the visible. Thermal imaging cameras record temperature data and turn that data into images that we can easily interpret. But what if we could interact with that data beyond simply looking at it? Artist and scientist Marton Mogyorósi is answering that question by providing his audience a more hands on experience with his latest exhibit, “Hidden Wavelength: Contemporary Scenes in Infrared”.
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Diamonds Are a Thief’s Best Friend: How FLIR Thermal Imaging Enhances Security at Namdeb’s Diamond Mines
Discover how Namdeb Diamond Corporation uses FLIR thermal imaging cameras to prevent diamond theft in Oranjemund, Namibia. Learn about the town’s mining history, security challenges, and how advanced surveillance technology helps protect valuable resources.
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FLIR Hadron Enables Lightweight and Affordable sUAS
Two innovative companies have integrated the new FLIR Hadron into sUAS platforms being launched this summer. The Hadron is a compact, low power form factor that includes both a visual and thermal camera and is designed to enable lightweight and dynamic aircraft. Teal Drones and Vantage Robotics took advantage of the Hadron’s state-of-the-art capabilities to create sUAS platforms at the leading edge of the industry.
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How to Clean a Thermal Camera Lens
The goal of cleaning a thermal camera lens is to remove excess dirt and oils that are interfering with measurement or image accuracy. As a rule, clean your thermal camera lens only when strictly necessary. It is not necessary to clean your camera lens regularly or before every use, only when there is visible dirt or fingerprints.
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What is a Non-Uniformity Correction (NUC)?
Non-uniformity correction (NUC) adjusts for minor detector drift that occurs as the scene and environment change. Basically, the camera's own heat can interfere with its temperature readings. To improve accuracy, the camera measures the IR radiation from its own optics and then adjusts the image based on those readings. NUC adjusts gain and offset for each pixel, producing a higher quality, more accurate image.