BMC4I

Highly effective, responsive, and interoperable BMC4I systems have never been more critical to US air and missile defense forces than they are today. The 21st–century air and missile threat is characterized by 1) a proliferation of tactical ballistic and cruise missiles capable of delivering weapons of mass destruction or conventional warheads, and 2) relatively inexpensive unmanned aerial systems capable of delivering weapons or mounting intelligence platforms. Dynetics’ comprehensive understanding of BMC4I allows us to meet the challenges of the 21st–century air and missile threat. With a proven track record of success in BMC4I, we specialize in the areas of defense design, battle management and network communications, modeling and simulation (M&S), analysis and architecture, and requirements analysis.

Dynetics’ world–class BMC4I team has a record of success that establishes our experience and expertise. This level of expertise is paramount because the 21st–century threat requires integrated air and missile defenses capable of achieving 360–deg coverage, increased battlespace, and shorter reaction times. To counter this threat, air and missile defense BMC4I developments are moving toward highly automated, interoperable, netted, and distributed systems connected by high–bandwidth, low–latency communications. Dynetics stands ready to deliver these types of developments, ensuring our customers innovative, powerful solutions with a life cycle of success. For example, our work in defense design led to the development of the Automated Search Tailoring and Basing (ASTAB) tool. ASTAB is regularly used in US and multinational war games and exercises. Our efforts in defense design also played a major role in developing the Terminal High–Altitude Area Defense (THAAD) design capability. These accomplishments mark Dynetics as preeminent in the area of defense design.

M&S is a key tool to investigate BMC4I. We rapidly develop sophisticated battle management models and simulations tailored in scope, fidelity, and outputs to the issues being investigated for our customers. Furthermore, we understand complex, adaptive, high–bandwidth network communications waveforms. With this knowledge, we utilize a spectrum of state–of&ndashp;the–art network M&S solutions from MATLAB waveform models to network simulations such as Dynetics’ quick-running and flexible TurboCom to OPNET® Technologies’ high–fidelity OPNET® simulation.