TrueThermal™
Counter-UAS systems operate at night. TrueThermal generates synthetic infrared imagery for CommonDefense using first-principles radiative transfer physics — giving your C-UAS models thermal training data without a single sensor deployment. Every pixel is computed from first principles, not generated by a neural network.
Material-specific emissivity profiles, atmospheric molecular absorption, aerosol scattering, and solar loading — resolved at spectral resolutions down to 1 cm⁻¹ across MWIR (3–5 μm) and LWIR (8–14 μm). The same physics that govern real IR sensors govern TrueThermal output.
Radiative Transfer
HITRAN molecular absorption. Correlated-k atmospheric transmittance. Line-by-line and band-model computation at operationally relevant spectral resolutions for C-UAS thermal scenarios.
Material Physics
Wavelength-dependent emissivity and BRDF for 200+ materials. Coupled thermal solver for diurnal temperature prediction of UAS airframes, propulsion systems, and payloads.
Sensor Modeling
NETD noise models. Optics MTF simulation. Uncooled microbolometer and cooled InSb/MCT detector characterization matched to fielded C-UAS sensor systems.
1 cm⁻¹ spectral · Uncooled μBolo