Virtual Marine Arsenal

MuSES (Multi-Service Electro-optic Signature) is an infrared signature prediction services program and provides complete thermal modeling and IR signature prediction within an integrated graphical interface. In addition to diffuse signature prediction, Multibounce BRDF rendering of band-specific radiance with atmospheric path attenuation gives you true apparent temperature at the sensor.

Osmosis computes the temperatures in near real-time and handles in thermal calculations the surface emissivity as a function of wavelength, temperature, and orientation of an optical beam incident upon the surface. Osmosis performing 1D optimized thermal modeling.

It was initially developed for testing the effectiveness of methods for increasing the infrared stealthiness of ships, i.e. for reducing their infrared signature. This implies computing the evolution of these signatures with time. Compared to other softwares assuming constant emissivity, Osmosis uses parametric emissivity. The emissivity is function of the surface temperature, the direction of arrival of the IR wave, and the wavelength.

RadThermIR is a thermal and infrared simulation tool designed for accurate IR predictions with full background interactions. Infrared radiance in selected wave bands can be predicted for diffuse, single-bounce BRDF, and multibounce BRDF renderings.

Navy Combat SUrvivability Manager Application, SURMA, is a software tool for comprehensive combat survivability assessments. The goal is to enhance the combat survivability features from the very beginning of the design process.

The first SURMA release is intended for the design of naval vessels, taking account the effects of UNDEX and AIREX either inside or outside the vessel. Users can aim for different EM, RCS, IR, Underwater Magnetics and Visual Signature levels. All changes of vessel geometry or materials can be immediately analyzed.