Custom ballistic missile models
The Missile Design Tool (MDT) in STK/MMT models operational systems and supports conceptual studies. A design
wizard collects system-level characteristics, while validity checks and performance plots ensure an operable
design with the desired capability. MDT models are simulated in Missile Flight Tool and employed as threats in
Interceptor Flight Tool (IFT).
Accurate trajectory simulation
The Missile Flight Tool (MFT) in STK/MMT simulates boost, midcourse and terminal phases of ballistic
trajectories with detailed models of gravity, atmospheric drag, guidance, PBV maneuvers, and RV deployment.
Using the database of representative missiles, U.S. Missile Defense Agency threat models, or custom models
built in MDT, missile flights can be imported into your STK scenario.
Intercept engagements
STK/MMT includes Interceptor Flight Tool (IFT) for simulation and analysis of engagement scenarios including
aircraft, missile, or satellite targets. Using the database of representative interceptors or a custom
interceptor specification, IFT provides kinematic feasibility assessments of one-to-one engagements.
Defense architecture performance
IFT automates parametric analysis to calculate defended area and launch area denied metrics. Results
incorporating sensor queues and battle management delays are numerically summarized and graphically displayed in STK.
Compatibility with external simulations
STK/MMT's Missile Conversion Tool (MCT) converts trajectory data from other simulations into missile system
objects for STK scenarios. MCT is compatible with STAMP and other GOTS applications, and provides a generic
file converter for custom simulations.
Integration with custom applications
STK/MMT features application programming interfaces (APIs) for MDT, MFT, IFT, and MCT.
Automated trade studies
Combine MFT and IFT with
STK/Analyzer to perform parametric, Monte Carlo, and
optimization studies without scripting or programming.