Logos Technologies, Fairfax, Virginia, in partnership with the University of Rochester’s Laboratory for Laser Energetics, has received an award to design, build and install a sophisticated high-energy laser at the Washington State University-led Dynamic Compression Sector at the Advanced Photon Source, Argonne National Laboratory. The Logos Technologies-led team will provide a laser-driven shock compression capability to produce high pressure, short duration shock waves.
Logos Technologies Inc.
Logos Technologies Incorporated, Fairfax, Virginia, is being awarded a $23,648,907 cost-plus-fixed-fee contract for field service representatives, operators and analysts required to support Persistent Ground Surveillance Systems Kestrel systems deployed outside of the continental United States for the U.S. Army. Work will be performed in Fairfax; Afghanistan; and Raleigh, North Carolina, and is expected to be completed in December. The Naval Air Warfare Center Aircraft Division, Lakehurst, New Jersey, is the contracting activity (N68335-14-C-0196).
Logos Technologies Inc., Arlington, Va., was awarded a ceiling $49,750,000 indefinite-delivery/indefinite-quantity, cost-plus-fixed-fee contract to develop and evolve enhanced and advanced techniques and capabilities for efficient collection, advance analytics and analysis of multiple sources of large data stores. Air Force Research Laboratory, Rome, N.Y., is the contracting activity.
Logos Technologies Incorporated, Arlington, Virginia, is being awarded an $11,155,953 cost-plus-fixed-fee order against a previously issued basic ordering agreement for a Phase III Small Business Innovation Research (SBIR) project. This SBIR project is in support of Topic 072-019 "Wide Area Video Image Storage Techniques" and Topic 072-017 "False Alarm Mitigation." This order provides services in support of lightweight expeditionary airborne persistent surveillance-overseas contingency operations systems to enhance the current wide-area persistent surveillance capabilities in order to provide real time imagery to ground users. Work will be performed in various U.S.