Highlighted Tools & Products

REST is a HWIL testbed framework used to support the design, development, and testing of satellite avionics and flight software. REST is a combination of the ARTEMIS (Advanced Real Time Environment for
Modeling, Integration, and Simulation) simulation framework and a suite of generic satellite system models used to integrate satellite components and sensors using real interfaces.

Advanced Hypersonic Modeling Capability with combined hardbody, plasma sheathing, and wake signature model. Full 3D CFD Navier Stokes flow field including 3D Near Field & Far Field Wake RCS and Plasma Attenuation Models.

Generates complete threat scene for M&S and flight test analysis. Synthesizes a complete missile radar scene including principle objects, debris and corporate clutter.

In-line simulation providing bi-static and multi-static radar cross section returns. Supports objects with changing RCS, dynamically created or with moving parts, and object interactions such as inter-object shadowing, interference, and multi-bounce.

MLDL integrates proven technologies to provide a simulation and test environment tailored to simulate space-based missions. MLDL provides actionable feedback to inform requirements capture for concept, logical, and technology design criteria. Mission assets and actors from ground components to formations to constellations can be placed in simulation with dynamic high-fidelity physics-based models to provide feedback in real time with detailed visualization.

One-stop tool for high-fidelity integrated scene construction, combining the processes and interfaces used to access critical threat data across the BMD community. Aggregates existing threat data products and characterization tools.

A software that provides situational awareness and decision support onboard UAVs that detects, identifies, and autonomously responds to hazardous anomalies, which minimizes hazards to human life and property while flying in the National Airspace. AIFMS contains situational awareness safety functions that can be embedded on any onboard processor. The safety functions monitor data provided by the UAV’s autopilot and provide and execute the safest course of action if a flight anomaly is detected.

A thorough Failure Reporting System that provides actionable data for aviation systems, including failure modes and condition statuses. The RIMFIRE process is a closed–loop system for identifying and tracking root failure causes, and subsequently determining which failures or conditions should be identified as candidates for corrective action. Included in the process is a quality control program that provides feedback on the process to minimize errors.