SBIR-STTR Award

A study will be performed to extrapolate the remids and amidars stand-off mine detection systems to a space platform. A parametric study will define the technology required for a space-based mine detection system. Current technology in standoff mine detection, space optics, laser transmitter/receivers, focal plane arrays and high speed data processing/transmission will be evaluated against the requirements generated in the parametric study. Tthe technology evaluation will include a study of an innovative multipixel coherent laser transmitter/receiver currently under development by daedalus under a nasa sbir. This innovative laser imager may provide the orders of magnitude increase in sensitivity needed to make a spaceborne mine detection system practical. The study will define the requirements for a spaceborne mine detection system and an evaluation of current technology to suport the development of the system. The study will show where technology advancements are needed an dht estudy will recommend high-payoff technology development tasks for Phase II

Phase I examined the alternative technologies available for landmine/minefield detection from space. We concluded that an optical system, based on a Light-Sat platform, is capable of detecting and delineating anti-armor minefields from space. We also concluded that a tactical satellite in low earth orbit could provide other information of importance directly to a battlefield commander. In Phase II, we propose to expand that knowledge by developing performance criteria for a tactical Light-Sat capable of anti-armor minefield detection and delineation, and other tactical roles. Four key objectives of Phase II are: 1. Data collection on simulated minefields to provide a detailed picture of the minefield signature variance as a function of time of day seasonal variation, and topographic variation. 2. Mission analysis to optimize the satellite design for the needs of other tactical users. (How can this system be leveraged to provide other tactical information required by a battlefield commander?) 3. Engineering analysis, including a proof of concept demonstration. This will provide the basis for satellite design specifications. 4. Development of design performance specifications for a satellite capable of meeting the above needs of the tactical user. This will provide the basis for a decision on whether the program should transition to hardware.