SSCI Wins Navy Grant to Develop Super-Resolution Optics for Tactical Sensors
June 5, 2009 by news
Program Leverages SSCI Leadership in Developing Intelligent Autonomous Unmanned Systems Technology
WOBURN, MA, June 5, 2009 – Scientific Systems Company, Inc. (SSCI), a leading developer of technology solutions for defense and industrial suppliers, today announced it has been awarded a grant from the U.S. Navy to develop super-resolution optics for tactical sensors. The Small Business Investment Research (SBIR) grant leverages SSCI’s leadership in technology enabling intelligent autonomous unmanned systems to perform their missions in hostile or challenging environments.
The SBIR program is seeking new technologies to create and capture image data beyond the range of current optical imaging systems used in battlefield situations and with unmanned aerial vehicles (UAVs). The technology must capture high-resolution images even in severe atmospheric conditions that can distort imagery such as drastic heat, turbulence or other events that distort visibility. SSCI will develop technology for super-resolving terrestrial scenes, focusing on flexible image reconstruction algorithms exploiting fast, lightweight graphics processing units. The new technology will enhance the performance and ability of intelligent unmanned systems to operate more independently than in the past.
“Being selected for this critical U.S. Navy development program underscores the importance of the technologies SSCI is developing,” said Dr. Raman Mehra, Founder & CEO. “SSCI’s technology platform provides the brains and nervous systems of unmanned vehicles that need to operate collaboratively and seamlessly with manned assets to accomplish missions in challenging environments.”
SSCI is one of the nation’s top recipients of SBIR grants. The funding, for Phase I of the Super-Resolution Optics for Tactical Sensors program, is for an “end-to-end optical imaging system prototype that will produce images at a 1Hz rate, with image resolutions at or beyond the diffraction limit, under severe atmospheric conditions.” SBIR grants are designed to stimulates technological innovation and promote the productivity and economic growth of the nation by engaging private enterprise in productive innovation projects for the U.S. government.
About Scientific Systems Company, Inc.
Scientific Systems Company, Inc. (SSCI) pioneers products and technologies that provide the intelligence for unmanned ground, air and maritime vehicles to autonomously and collaboratively accomplish missions in difficult environments. A leading developer of technology solutions for defense and industrial suppliers, SSCI is one of the top 20 recipients of Small Business Innovation Research awards in the U.S. and is recognized by the U.S. Navy and Army for its record of successful technology transitions. A privately held company based in Massachusetts, SSCI collaborates with a network of defense industry prime contractors and consultants, drawing on an accumulated investment of over $150 million in advanced research and development funding.
Contact:
Greg Moeller
(781) 933-5355 x295
gmoeller@ssci.com
NASA selects Scientific Systems for formation flying research
January 22, 2009 by news
WOBURN, MA, January 22, 2009 – NASA today awarded Scientific Systems a Phase I SBIR contract to develop control algorithms that would enable groups of unmanned aircraft to fly in formation. The initial application serves as a critical element of NASA’s search for Earthlike planets, but once developed the capability could be extended to all types of unmanned platforms.
Formation flying is a critical element in NASA’s search for Earthlike planets. Terrestrial Planet Finder (TPF), NASA’s first space-based mission to directly observe planets outside our own solar system, will rely on formation flying to achieve the functionality and benefits of a large instrument using multiple lower cost smaller spacecraft. Aqua mission of the Goddard Space Flight Center will use formation flying concepts (“A-Train”) to collaborate with multiple Earth observing spacecraft. The proposed techniques are directly applicable to those missions.
Among non-NASA applications are several current ongoing projects by the military. Department of Defense agencies, including DARPA, are focused on developing the next generation of collaborating and formation flying Unmanned Vehicles (UAVs, USVs, UUVs etc.) which can use the analysis methods and tools developed under this effort for performing trade-off studies for designing distributed multi-agent networks.
Being funded to do this work moves Scientific Systems closer to its goal of enabling intelligent autonomy for unmanned systems by developing one aspect necessary for a single operator to be able to control many aircraft.
About Scientific Systems Company, Inc.
Scientific Systems Company, Inc. (SSCI) pioneers products and technologies that provide the intelligence for unmanned ground, air and maritime vehicles to autonomously and collaboratively accomplish missions in difficult environments. A leading developer of technology solutions for defense and industrial suppliers, SSCI is one of the top 20 recipients of Small Business Innovation Research awards in the U.S. and is recognized by the U.S. Navy and Army for its record of successful technology transitions. A privately held company based in Massachusetts, SSCI collaborates with a network of defense industry prime contractors and consultants, drawing on an accumulated investment of over $150 million in advanced research and development funding.
Contact:
Greg Moeller
(781) 933-5355 x295
gmoeller@ssci.com
U.S. Air Force awards SSCI contract to design adaptive flight control systems
January 22, 2009 by news
WOBURN, MA, January 22, 2009 – NASA today awarded Scientific Systems a Phase I SBIR contract to conduct research on adaptive flight control systems. Expanding SSCI’s partnership with key providers of defense technology, additional technical expertise for this effort will be provided through Boeing Phantom Works and the Massachusetts Institute of Technology.
Design of effective adaptive flight control systems capable of accommodating highly nonlinear vehicle dynamics and large uncertainties is fundamental to the future advancement of aircraft development and design. For most aerospace applications nonlinear dynamics and uncertainty can either be inherent to the airframe design or induced from flight sustained upsets, damage and/or external hazards. Hence the proposed technique will find wide applications in flight control design for both commercial and military aerospace vehicles. In addition, effective adaptive control designs are directly applicable to guidance, navigation and control (GNC) problems in space exploration.
Efficient adaptive control system designs are applicable to a wide variety of engineering systems including general Unmanned Systems (aerial, ground, surface, underwater), robotics, automotive industry, process control, and power systems.
Being funded to do this work moves Scientific Systems closer to its goal of enabling intelligent autonomy for unmanned systems by developing one aspect of the “brains and nervous system” necessary for intelligent autonomy.
Contact:
Greg Moeller
(781) 933-5355 x295
gmoeller@ssci.com