Missile Defense Agency Advanced Research Overview DISTRIBUTION STATEMENT A. Approved for public release; distribution is unlimited. Approved for Public Release 16 -MDA-8596 (9 March 16)
The Increasing Ballistic Missile Threat • Increasing theater threat capabilities ‑ Accuracy & Range ‑ North Korea developing new IRBM • Developing ICBM threat ‑ North Korea developing KN-08 ICBM ‑ Iran may be technically capable of flighttesting an ICBM by 2015 ‑ Space Launch Vehicles (SLV) could serve as a test beds for ICBM technologies • Challenging Missile Defense ‑ Maneuver / Salvo firings / Countermeasures North Korean KN-08 ICBM Launcher on Parade, 2012 Approved for Public Release 16 -MDA-8596 (9 March 16) North Korean Mobile IRBM on Parade, 2010 Theater Ballistic Missile Force Levels Not including U. S. , China, Russia or NATO NK Taepo Dong-2 SLV Launch, 2012 Iranian Safir SLV on Launch Pad, 2011 Sources: NASIC, Ballistic and Cruise Missile Threat, 2009; DIA, Iran’s Military Power, Statement before the Senate Armed Services Committee, 14 APR 10; Annual Report on Military Power of Iran, April 2012 DNI, Remarks, Worldwide Threat Assessment to the Senate Select Committee on Intelligence, 12 March 2013; Full Update, DIA, Annual Threat Assessment 2008, 2012; MSIC, e-mail, RE: Unclassified Force Level Numbers, 6 April 2012; DNI, Unclassified Report to Congress on the Acquisition of Technology Relating to Weapons of Mass Destruction and Advanced Conventional Munitions, Covering 1 JAN to 31 DEC 2011; NSA-FCS 5, email, KN 08 Classification, 20 Jan 2013 FARS News Agency, Korea Central News Agency, Yonhap News Agency 2
Today’s Ballistic Missile Defense System Approved for Public Release 16 -MDA-8596 (9 March 16) 3
Ballistic Missile Defense System Order of Battle IFICS Data Terminals 26 Ground Based Interceptors NORTHCOM C 2 BMC Thule UEWR GMD Fire Control Nodes Ft Greely, AK; Eareckson, AK VAFB, CA; CO Springs STRATCOM C 2 BMC Fylingdales UEWR Offutt AFB United Kingdom Space Based Infrared Greenland Ft Greely, AK CO Springs EUCOM C 2 BMC CENTCOM C 2 BMC Ramstein AB, GE Ft Greely, AK Al Udeid, Qatar Cobra Dane Upgrade AN/TPY-2 X-Band Radar Shemya, Alaska Shariki, Japan Kyogamisaki, Japan Kurecik, Turkey Middle East Israel VAFB (Testing) Beale UEWR PACOM C 2 BMC California 4 Ground Based Interceptors AEGIS BMD Terminal High Altitude Area Defense Hickam AFB, HI Sea-Based X-band Patriot Advanced Capability -3 Shooter Sensor C 2 BMC Vandenberg AFB Approved for Public Release 16 -MDA-8596 (9 March 16) 4
International Partners Europe Middle East NATO: NATO BMD Interim Capability ; ALTBMD; BMD (Territorial Missile Defense); Interoperability Tests Framework Czech Republic: BMD with EPAA Partner; University to University Research Israel: Arrow Deployed, Arrow System Improvement Program; development of David’s Sling Weapon System; Iron Dome Coproduction Kuwait: Missile defense discussions France: University to University Research; Cooperative R&D Agreement Germany: PAC-3 Qatar: Missile defense discussions; Foreign Military Sales cases for Patriot Saudi Arabia: Missile defense discussions; PAC-3 purchase United Arab Emirates: Foreign Military Sales cases for THAAD and PAC-3 Denmark: BMD Framework Partner; Thule Upgraded Early Warning Radar; RDT&E Cooperative Project Italy: BMD Framework Partner Netherlands: PAC-3; Maritime BMD studies Asia / Pacific Poland: Agreed to host Aegis Ashore Romania: Agreed to host Aegis Ashore Spain: Hosting BMD-capable ships to support NATO BMD and other missions Turkey: AN/TPY-2 radar host, University to University Research Engagement / Outreach Missile Defense Analysis UK: BMD Framework Partner; Fylingdales Upgraded Early Warning Radar, Joint Project Arrangements for Cooperative R&D Projects Cooperative Missile Defense Projects Co-development Australia: BMD Framework Partner; R&D Cooperative Project Japan: BMD Framework Partner; AN/TPY-2 radar host, 21" Missile Development; 4 Aegis BMD capable ships ROK: Missile defense discussions Co-production Deployment 5
Representative Technology Topics Space and Sensor Technology Directed Energy Technology Advanced Cognition Processing and Algorithms for Improved Identification Power Sources and Thermal Management for High Energy Lasers System Communications High Power Optical Fibers Command Control Human-to Machine Interface Quick Recovery High Energy Diodes Improved Track Accuracy for Missile Engagements Ultra low SWa. P Diode Pump Modules Open Framework Planner with Embedded Training Large Stroke, High Spatial Bandwidth, Deformable Mirrors Improvements in Spacecraft Manufacturing Efficiency Innovative Antenna Arrays Enabling Continuous Interceptor Communications Light Weight, Dampened Optical Benches Optics & Coatings for Alkali Environments Interceptor Technology Interceptor Thermal Protection Systems Future BMDS Concept Development Expand Digital, Constructive, and HWIL Tools Lethality Enhancements Multi-Object Payload Deployment Advanced Reserve Battery Technologies MENS IMU Solutions for Missile Defense Applications Lithium Oxyhalide Battery Separator Material High Temperature Material Manufacturing Improvements Aerospace Vehicle Target Tracking and Discrimination Radar Interferometric Processing for EMG Radiation Hardened Mirror & Focal Plane Array Technology Low Light Short Wave Infrared Focal Plane Arrays Innovative Ways to Shorten System Level Simulation Integration Time Approved for Public Release 16 -MDA-8596 (9 March 16) 6
MDA Small Business Innovation Research (SBIR) / Small Business Technology Transfer Program (STTR) Focus • Pursue a broad range of high-risk technologies - To search out revolutionary technologies - Transform new technologies into actual applications for insertion into the BMDS - Benefit from commercialization Ultra Sensitive Detector Focal Plane Arrays • Technology insertion into the BMDS is critical • 4 th largest program in the Department of Defense Advanced Battery Technology Advanced IMU Technology Ruggedized Electronics High Energy Laser Seeker Technology Approved for Public Release 16 -MDA-8596 (9 March 16) Nanosat Technology Demonstrations Lightweight Composite Rad-hardened Mirror Technology 7
MDA’s Small Business Innovation Research / Small Business Technology Transfer (SBIR/STTR) Programs • SBIR / STTR program is a four step process - Phase I: feasibility and concept development - Phase II: technology and prototype development - Phase II Enhancement: Prototype testing and technology demonstrations and validation - Phase III: Commercialization and Transition Phase II Enhancement Feasibility Technology Development & Prototype Testing & Evolution Technology Demo & Validation Demonstration Study Phase III Commercialization Transition Approved for Public Release 16 -MDA-8596 (9 March 16) 8
For More Information www. mda. mil • Missile Defense News, Images, Videos, Fact Sheets • BMDS Overview, BMD Basics • MDA Business Opportunities (http: //www. mda. mil/business/advanced_research. html) • Do. D SBIR/STTR website: https: //sbir. defensebusiness. org • SBA SBIR/STTR website: https: //www. sbir. gov To Contact MDA • SBIR / STTR 256 -955 -2020 • University / BAA sbirsttr@mda. mil 256 -450 -3800 Advanced Research@mda. mil • Commercialization 256 -450 -5343 SBIR-Phase. III@mda. mil Approved for Public Release 16 -MDA-8596 (9 March 16) 19
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