AWARD
A -- HR0011-14-C-0056/Arrays at Commercial Timescales Technical Area 2 (ACT TA2)
- Notice Date
- 4/2/2014
- Notice Type
- Award Notice
- NAICS
- 541712
— Research and Development in the Physical, Engineering, and Life Sciences (except Biotechnology)
- Contracting Office
- Other Defense Agencies, Defense Advanced Research Projects Agency, Contracts Management Office, 675 North Randolph Street, Arlington, Virginia, 22203-2114, United States
- ZIP Code
- 22203-2114
- Solicitation Number
- DARPA-BAA-13-26
- Archive Date
- 4/11/2014
- Point of Contact
- Jimmy K. Hupalar, Phone: 571-218-4810, Stephanie R. Gilbert, Phone: 5712184615
- E-Mail Address
-
Jimmy.hupalar@darpa.mil, stephanie.gilbert.ctr@darpa.mil
(Jimmy.hupalar@darpa.mil, stephanie.gilbert.ctr@darpa.mil)
- Small Business Set-Aside
- N/A
- Award Number
- HR0011-14-C-0056
- Award Date
- 3/27/2014
- Awardee
- Georgia Tech Applied Research Corporation, 505 10th St<br />, Atlanta, Georgia 30332, United States
- Award Amount
- $5,461,483
- Description
- In BAA-13-26 DARPA solicited innovative research and development (R&D) proposals to create electromagnetic interface arrays capable of being fielded at timescales paced by rapidly advancing commercial off-the-shelf (COTS) electronic components, i.e., Arrays at Commercial Timescales (ACT). Today's electromagnetic systems increasingly use antenna arrays to provide unique capabilities, such as multiple beam forming and electronic steering, that are important for a wide variety of applications, e.g., communications, signal intelligence (SIGINT), radar, and electronic warfare. However, the widespread use of arrays has come at a severe cost in terms of the system development time and the ability to upgrade capabilities in the field. While the commercial market has set the pace of the evolution of electronic systems, the development of military electronics has a cadence that lags behind the design and fielding cycles of commercial equipment. For example, a fielded military system based on decade-old electronics (e.g., a Xilinx Virtix 2 FPGA) has a small fraction of the capabilities of a system based on 2012 components (e.g., a Xilinx Virtex 7). In particular, the performance gap is widening between the RF capabilities of a fielded military system and the continuously improving digital electronics surrounding the system. A system with static RF or analog features cannot leverage the advancements of the underlying digital electronics and, therefore, will exhibit fixed capability in an evolving threat space. It is imperative to define a path toward shorter design cycles and infield updates. Research must push past the traditional barriers that lead to 10-year array development cycles, 20- to 30-year static life cycles, and costly service life extension programs. Array programs within the government tend to constitute a unique (i.e., highly targeted one-off) design effort with little consideration for design re-use. ACT will develop a separable building block asset in which as much as 70% to 80% of an array's development cycle cost is built-in. The Georgia Tech Applied Research Corporation proposes to design, demonstrate, and deliver a Reconfigurable Electromagnetic Interface (REI) (with an integrated reconfigurable ground plane) that can be optimized in-situ for frequency, bandwidth, beam pattern, steering, null placement, polarization, and input impedance. The overarching objective of this contract is to leverage the gain of the array to match the gain of the standard array, but with added ability to reconfigure for different missions, to train to its environment, and to require a lower feed density and lower common module density than a traditional array.
- Web Link
-
FBO.gov Permalink
(https://www.fbo.gov/spg/ODA/DARPA/CMO/Awards/HR0011-14-C-0056.html)
- Record
- SN03327502-W 20140404/140402235159-8f46cf8d6ca7572278a23864a941f6ce (fbodaily.com)
- Source
-
FedBizOpps Link to This Notice
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