We design missile systems from first principles and prove them in simulation before bending metal. Our engineers build high-fidelity 6DOF models that capture the physics of flight, propulsion, guidance, and lethality — then run them at scale on our own compute infrastructure. From initial trade studies through detailed design, we provide the analytical foundation that turns requirements into validated, simulation-proven capability.

Propulsion and Kinematics

We model solid and liquid rocket motor performance, staging dynamics, and trajectory optimization to maximize range, speed, and maneuverability within mass and volume constraints. Our propulsion models integrate directly into our simulation framework, enabling rapid trade studies across thousands of design variants to identify optimal configurations.

Guidance and Navigation

We develop and analyze GNC algorithms for proportional navigation, augmented proportional navigation, and advanced guidance laws tailored to specific engagement geometries. Our work spans GPS/INS integration, stellar-inertial navigation, and GPS-denied environments — all validated through high-volume simulation campaigns on our dedicated compute infrastructure.

Seekers and Trackers

Our team has direct experience with seeker design and performance analysis across infrared, RF, and multi-mode sensor technologies. We model seeker acquisition ranges, tracking accuracy, countermeasure susceptibility, and handover dynamics — generating the high-fidelity sensor models that drive our end-to-end engagement simulations.

Contact Us: questions@missileexperts.com