SimHDR-IR provides real-time physics-based thermal modeling to render MWIR and LWIR sensor effects and phenomena across time-varying environmental and atmospheric conditions in High Dynamic Range for visual applications and Image Generators.
Will Not be DisplayedBenefits
Physics-based Mid and Long Range Infrared thermal modeling
SimHDR-IR accurately models MWIR and LWIR thermal effects such as thermal cross-over and thermal inversion.
Accurate thermal modeling across time varying environment and atmospheric conditions
SimHDR-IR provides accurate modeling of the diurnal progression of temperature contrast under fixed and varying meteorological conditions impacted by temperature and moisture content.
GPU sensor modeling
SimHDR-IR provides extremely rapid GPU based sensor transforms on the fly to generate sensor displays with greater pixel density and reduced latency.
Physics-based, High-Dynamic Range Rendering
All SimHDR-IR signature modeling is executed in floating point math and natural radiometric units providing full HDRR across your entire scene.
Why Choose SimHDR-IR?
SimHDR-IR provides rapid and accurate physics-based GPU thermal models to render MWIR and LWIR sensor effects in a High Dynamic Range.
Options
SimHDR-IR can be delivered in a variety of ways to meet your needs and budget constraints.
Easily integrate into your own visual application with the SimHDR-IR Software Development Kit (SDK).
Integrate SimHDR-IR into your own application using the SimHDR-IR SDK .
Use SimHDR-IR plug-in modules for existing supported visual applications and Image Generators (IGs).
SimHDR-IR can be delivered as a completely integrated plug-in module for multiple supported applications saving you time and resources while expanding your current visual display capabilities.
Let us integrate SimHDR-IR into your visual application for you.
RSC provides experienced and talented engineers to work with you and your staff to integrate our capabilities into your visual application.
Product Details
SimHDR-IR includes all of the capabilities of SimHDR with the addition of a physics-based thermal model to render MWIR and LWIR sensor effects and phenomena (such as thermal cross-over and thermal inversion) across time-varying environmental and atmospheric conditions. In addition, SimHDR-IR provides extremely rapid GPU based sensor transforms on-the-fly to generate sensor displays with greater pixel density and reduced latency. SimHDR-IR can be easily integrated into your existing OpenGL-based visual application or Image Generator through our open API and non-evasive GPU shader management technology.
SimHDR-IR provides accurate modeling of the diurnal progression of temperature contrast under fixed and varying meteorological conditions impacted by temperature and moisture content. SimHDR-IR’s flexible architecture and open API allows developers to rapidly add physics-based IR sensor modeling to existing visual applications and Image Generators. SimHDR-IR accommodates a wide range of applications and use cases that include full-fidelity sensor training systems, desktop computer-based training, classroom-based multimedia systems, ready-room mission briefing systems, in-cockpit sensor displays, and multi-channel immersive visuals.