Supporting Efforts

Advanced Technology

 

Advanced Technology Fact Sheet (PDF*)

The Advanced Technology Program Executive Office develops new system concepts and key components to ensure the Ballistic Missile Defense System (BMDS) keeps pace with the continually evolving ballistic missile threat. The advanced technology effort is focused on developing and demonstrating the next generation of technology that will give us the capability to intercept early in the battle space, force less effective deployment of counter-measures, and reduce the number of interceptors required to defeat a raid of in-bound threats.

  • Standard Missile 3 Block IIB: Phase 4 of the European Phased Adaptive Approach will include the more capable SM-3 Block IIB deployed to Europe in the 2020 timeframe to provide an independent interceptor layer against existing homeland ICBM threats and early intercept capability against regional threats. The program is conducting system trades and developing high performance interceptor components as well as exploiting existing technology to increase the BMDS effectiveness against high density raids and long range threats.
  • Directed Energy Research: MDA transitioned its Directed Energy Research program from the Airborne Laser flight test program to developing the next generation high power directed energy platform. MDA is exploring two promising laser technologies, Diode Pump Alkali Laser System and fiber combining laser technology. From these technologies a 200kW class flight qualifiable laser will be selected, built and integrated into a platform for testing. In parallel, the MDA will collect high-altitude, low-mach flight data to validate the benefits of operating a high power laser system in this flight regime for Ballistic Missile Defense applications.
  • University Research Programs: Awards contracts with colleges and universities to develop next generation technologies for possible implementation into the BMDS. Research is ongoing in many technology areas. These include minimizing the impact of debris, rapid response architecture optimization, propulsion, electro-optical sensors, and materials characterization.
  • Small Business Innovation Research (SBIR) Program: The purpose of the SBIR program is to harness the innovative talents of our nation's small technology companies for U.S. military and economic strength. The SBIR program funds early-stage Research and Development (R&D) at these companies and is designed to: stimulate technological innovation, increase private sector commercialization of federal R&D, increase small business participation in federally-funded R&D, and foster participation by minority and disadvantaged firms in technological innovation.
  • Small Business Technology Transfer (STTR) Program: is similar in structure to SBIR but funds cooperative R&D projects involving a small business and a research institution (e.g., university, federally-funded R&D center, or nonprofit research institution). The purpose of STTR is to create an effective vehicle for moving ideas from our nation's research institutions to the market, where they can benefit both private sector and military customers.
  • Advance Remote Sensor Technology: To support Ballistic Missile Defense, the MDA is developing future space-based sensor technology to enable the defeat of enemy raids and track ballistic missiles early, expanding the Ballistic Missile Defense battle space. System modeling has shown that integrating advanced remote sensors into the BMDS will allow it to efficiently develop precise 3-dimensional tracks, discriminate the threat, and significantly increase interceptor performance from a single platform. The Advanced Remote Sensor Technology Program matures emerging sensor technologies and algorithms to achieve these capabilities.