Integrated Air and Missile Defense Battle Command System (IBCS)


United States Army

The Integrated Air and Missile Defense Battle Command System (IBCS) is the future command and control system for U.S. Army air defense assets. It is intended is to integrate the communications between weapon launchers, radars, and the operators, allowing an air defense unit, such as a Patriot battery, to fire its interceptors using information provided by the radar of another. 1 In some cases, this integration will permit an Army air defense unit to defend a larger area, as the unit’s engagement zone will be less limited by the view of its own organic radar. It will also reduce the chance of interceptor wastage, by reducing the chance that two or more air defense units will engage the same target. Once deployed, IBCS will take the place of seven other Army command and control systems currently in use.

IBCS Testing
The system has been used in a number of tests beginning in May 2015. In a test conducted on April 8, 2016, IBCS operated against dual threats, a cruise and ballistic missile. It displayed its intended capability by linking sensors from one defense system to interceptors from another, defeating both incoming missiles.

As of August 2016, the program is awaiting a decision to determine whether it will enter its production phase. 6 The Commander of the U.S. Army Space and Missile Defense Command LTG David Mann said that IBCS is “Army priority effort and serves as the foundation for Army AMD modernization” by top Army officials.7 The Office of the Secretary of Defense has also praised IBCS, saying the program was an “exemplar program for should-cost and Better Buying Power.”

Software Development
Mission Control
  • Created Microservices /Event-Bus architecture to define new V4.5 architecture for MC SW Engagement Operations
Mission Support Common Warfighter Machine Interface (CWMI) Embedded training Modeling & Simulation
  • Global Engagement Modeling (GEM)
  • Robustness analysis and domain modeling
  Requirements development
Specialty Engineering

Reliability, Availability, Maintainability

Test & Evaluation

Author 2nd rev Software Test Plan CDRL document

Simulation Scenario Requirements development

Software Test Description development

System and Software Use Case review and analysis

DOORs Administration

DXL Scripting