This paper describes the Comprehensive Munitions and Sensor Server (CMS2) simulation software, its representation of Unattended Ground Sensors (UGS), Intelligent Munition Systems (IMS) and mines, and its application to high visibility US Army programs.
The Comprehensive Munitions and Sensor Server (CMS2) provides a high-fidelity representation of mines, Intelligent Munitions Systems (IMS), and Unattended Ground Sensors (UGS) to support a broad range of engineering and operational simulation applications. Mine types modeled by CMS2 include conventional anti-personnel and anti-tank, side attack, command activated and individual and networked smart munitions. Sensor technologies modeled include, but are not limited to, imaging IR, acoustic, seismic, and magnetic. Since the CMS2 software is predominantly implemented as parametric models and plug-in libraries, the sensors, munitions, mines and their components can be configured or even added at run time. CMS2 interfaces with an imaging sensor simulation and a Human-In-The-Loop (HITL) controller application that allows for the control of IMS and UGS systems simulated by CMS2. The controller, in conjunction with the imaging sensor simulation, provides static visible and infrared (IR) images of the target area of interest to the operator. CMS2 typically complements the OneSAF Testbed within force-on-force simulations.
Because of its modularity and software reuse, the CMS2 simulation is utilized extensively to support programs such as TRADOC’s Unit of Action experimentation, Intelligent Munitions System (IMS), Tactical Unattended Ground Sensor (T-UGS), Networked Sensors for the Future Force (NSFF) program and the Future Combat Systems (FCS).
This paper will describe how some of these programs are using CMS2 to support the development and acquisition of UGS and IMS technologies.