High-Performance Enhancement of SWIR Images

Abstract: Short-wave infrared imaging technology has rapidly developed over the past decade. However, image detail and contrast enhancement techniques, which are crucial for infrared imaging systems, are rarely dedicated to SWIR imaging systems. Moreover, the existing IR image enhancement methods generally have difficulty providing real-time performance, which plays a significant role in imaging systems with high data rates. In this paper, we propose a simple and real-time SWIR image enhancement approach based on the di… Show more

“…[33][34][35][36] Imaging beyond 1000 nm would require a different photodetector (oen indium gallium arsenide, InGaAs), which is multiple orders of magnitude more expensive and can require cryogenic cooling (as low as −80 °C). 34,[37][38][39][40][41][42] 2 Results and discussion…”

Switch-on near infrared emission in albumin behind dark fabric: toward application in forensic latent bloodstain detection

“…[33][34][35][36] Imaging beyond 1000 nm would require a different photodetector (oen indium gallium arsenide, InGaAs), which is multiple orders of magnitude more expensive and can require cryogenic cooling (as low as −80 °C). 34,[37][38][39][40][41][42] 2 Results and discussion…”

Switch-on near infrared emission in albumin behind dark fabric: toward application in forensic latent bloodstain detection