Award Data

Reductions and reallocations of telemetry wireless bandwidth have prompted the need for DoD agencies to adapt to operation in more restricted and less desirable frequency spectrum. Telemetering systems must evolve to address these frequency allocation changes, while retaining operational characteristics that are vital to MDA mission success. The design and implementation of high performance transm ...

High power microwave (HPM) sources have been developed over the past few decades for many important DoD missions ranging from electronic warfare to intentional EMI to impulse radar. One important area of development for HPM devices is ballistic missile defense (BMD). HPM systems and techniques may be able to disrupt, damage, or destroy critical elements of adversary ballistic missile systems, re ...

The goal of this STTR project is to develop an engineered growth substrate technology that will enable low defect MCT growth on silicon that is comparable in defect density to MCT grown on lattice matched CZT substrates. The layer transfer process elements demonstrated in Phase I will be further optimized to produce low defect density MCT on silicon substrates in Phase II. SRICO will achieve this ...

Under this SBIR Imaging Systems Technology will develop a large area IR scene generation system based on its Plasma-shell technology. Plasma-shells are tiny glass bubbles filled with gas. When energy is applied across the Plasma-shell the gas ionizes to form plasma. The Plasma-shells are applied to substrates to form large area arrays. The arrays are very rugged, and can be made very large. Plasma ...

The expansion in the Missile Defense Agency"s mission to include emphasis on theater and regional missile defense necessitates the development of innovative concepts and techniques for employment planning and real time tasking of a variety of distributed sensor resources. Needed are algorithms in a number of closely coupled areas including: fusion of information from disparate and possibly hetero ...

The Missile Defense Agency is planning to develop a Next Generation AEGIS Missile (NGAM) as a Ballistic Missile Defense system for deployment in 2020 for defense against threat reentry vehicles. The NGAM system requirements for longer range intercepts and higher velocity leads to the NGAM requirements for lightweight subsystem components including the guidance section (GS) electronic components. T ...

Our proposal specifically addresses the stated requirements of the solicitation; we will develop and deploy tools, methods, and models for improving optimistic modeling techniques. The proposed EDAptive PROMOTE solution builds on previous Edaptive Computing, Inc (ECI) knowledge and technology itself innovative to reduce and diagnose rollback errors in optimistic models and convert non-optimistic ...

Use of data from multiple sensors provides the opportunity for improved ballistic missile defense search and tracking. Algorithms for combining multi-sensor data are required. Ballistic missile defense sensor data fusion is a challenging problem because of incompatibility in coordinate systems for different sensors, which makes it difficult to transfer variance and covariance information, and beca ...

ATA proposes to develop, test and deliver an Optical Inertial Reference Unit (OIRU) called the MSTAR Inertial Reference Unit with DRGs (MIRU-D). The MIRU-D will incorporate four ATA ARS-14s and four Boeing MEMS DRGs on the inertially stable side of the MIRU-D. The efforts in Phase II will lay the groundwork for a unit that is both technically superior and ready for flight qualification and manuf ...

During hypersonic reentry, the flow around reentry vehicles is ionized resulting in electro-optical and infrared emissions, detectable radar cross-sections, and attenuation of signals transmitted through the plasma. Modeling these flows requires both expertise and substantial user time. The Phase II program will address these issues by developing the Reentry Vehicle and Wake Analysis Tool that wil ...