About This Webinar
Discover the fascinating world of infrared imaging radiometry! Infrared imaging radiometry involves using an infrared camera to measure the infrared radiation emitted by objects in a scene. Each pixel in an image captured by a radiometrically calibrated camera provides quantitative data. These radiometric images are not just pictures; they are 2D grids of infrared radiation measurements from the scene, typically displayed as temperature per pixel in most commercial applications. During this webinar, Matthew Hasty will explore the fundamentals of infrared technology, how it works, and the various sensor technologies available. The presentation will also touch on radiometric calibration for temperature per pixel. Finally, Hasty will demonstrate how software, particularly FLIR Research Studio, can enhance efficiency and drive scientific discovery for global teams in innovative ways.
Join this webinar to uncover the basics of infrared technology, explore different sensor types, and learn about radiometric calibration. Plus, see how FLIR Research Studio software can revolutionize efficiency and spark scientific breakthroughs for global teams.
Who should attend:
R&D scientists, engineers, and manufacturers who are within production and test measurement. Those who work in aerospace, automotive, consumer, defense, energy, machine vision, and semiconductors. Those who work with cameras, detectors/sensors, imaging, software, and test and measurement.
About the presenters:
Matthew Hasty is the global senior product manager for the Research and Development and Automation Segments at FLIR. With more than five years at FLIR, Hasty oversees the strategy and execution of the world's highest performance commercially available infrared camera systems, including fixed-mount cooled and uncooled systems, as well as supporting software and software development kit platforms. Hasty leads a team dedicated to releasing scientific imaging solutions that enable groundbreaking research and development worldwide. Hasty's passion for understanding customer needs drives the creation of innovative products that consistently exceed expectations. Hasty holds a bachelor’s degree in industrial and systems engineering and a master’s degree in international business.
Ross Overstreet has been with the FLIR Science Team for 19 years where he’s specialized in Military Test Range and National Laboratory applications. He previously worked in Data Acquisition for National Instruments and as Thermal Vacuum Test Engineer for Boeing. Ross has Bachelors and Masters degree in Mechanical Engineering for Auburn University.
About FLIR:
FLIR thermal imaging cameras are ideal for a wide range of R&D/Science applications, especially where accuracy, flexibility, reliability, sensitivity, and performance are vitally important. These cameras help developers study, see, and quantify the heat dissipation and thermal characteristics of their development projects. From benchtop uncooled to high-speed, high resolution cooled thermal cameras, FLIR is the global choice for industrial R&D, academic research, non-destructive testing, materials testing, and aerospace applications.