SAA Targeted Advanced Radar Technology (START)
Small Business Information
1310 United Heights Suite 105, Colorado Springs, CO, 80921
Chief Executive Officer
Chief Executive Officer
AbstractColorado Engineering Inc. (CEI), with its teammate, Ball Aerospace, proposes to leverage its collective expertise with phased array antenna design, advanced processing architectures, and radar signal processing algorithms to research, identify, and mature technologies that will improve the cost, size, weight, and power consumption of radar systems supporting Sense and Avoid (SAA) systems. This effort will help accelerate the realization of a scalable air-to-air radar sensor solution supporting SAA functionality on a variety of Unmanned Aircraft Systems (UAS), both large and small. The CEI team offers a unique perspective on SAA radar technology that will benefit the program described by this SBIR topic. CEI and Ball Aerospace are currently developing a radar supporting the SAA mission for Global Hawk under an AFRL-sponsored program called USTAR: Unmanned Sense, Track, and Avoid Radar. The team will draw from its experiences with this system to help identify and guide research into areas of component technology and alternative antenna and signal processing architectures which hold the most promise for enhancing the SWaP and performance of SAA radar designs. BENEFIT: CEI has developed software and hardware technologies for a variety of government programs, and the team has transitioned over 37 products to production for use in DoD and Government systems. CEI also has experience commercializing technology developed under Government-funded programs. Products are packaged as COTS items, listed on a catalog price sheet, supported with technical application notes and marketing materials, and made available for sale to both the commercial and Government markets. CEI will promote technologies developed under this effort as part of its standard commercial product marketing and sales activities. The technology enhancements anticipated under this program will reduce cost, size, weight, and power requirements and while increasing system performance. Enabling SAA radars to operate in smaller SWaP footprints will expand the applications and market for these technologies to a wider range of commercial and Government aircraft, both manned and unmanned. The ability to enhance commercial manned aircraft with robust non-cooperative collision avoidance capability would enhance air traffic safety. Advanced SAA radar technologies would help make commercial applications of unmanned aircraft a reality for applications such as overnight freight transport. The SAA radar technology would also have maritime applicability.
* information listed above is at the time of submission.