Volume 11, Number 1 • Spring 2003 • Aerospace Technology Development
NASA Navigation Work Yields Commercial Benefits
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NASA's DC-8 airborne laboratory, one of two research aircraft used to conduct the Global Differential GPS system flight demonstrations. Photo courtesy of Jet Propulsion Laboratory. |
NASA researchers have demonstrated the ability to navigate airplanes very precisely in real time, anywhere in the world, independent of local navigational aids or infrastructure. The breakthrough promises to extend precision navigation to enhance aviation safety.
Ron Muellerschoen, Lead Architect of the NASA Global Differential GPS system at NASA Jet Propulsion Laboratory in Pasadena, CA, has demonstrated the ability of the system to achieve real-time aircraft positioning accuracy of 10 centimeters (3.9 in) horizontally and 20 centimeters (7.9 in) vertically, anywhere in the world — a factor of 10 improvement over current autonomous navigation systems. The system relays precise, real-time navigation data to specially equipped aircraft.
Although developed to improve the accuracy, efficiency and timeliness of Earth science missions, the technology’s byproducts also may include numerous civil and commercial applications in such areas as aviation safety, marine operations, land management, transportation and agriculture, said Dr. Yoaz Bar-Sever, the Principal Investigator for NASA’s Global Differential GPS system at JPL. “Civil and commercial navigation services, currently only available within Earth’s infrastructure-rich regions, could now be extended to any part of the world without lowering performance and with little to no marginal cost,” he said.
Within the field of Earth science, Bar-Sever said the technology would be used to develop better exploration techniques for Earth-observing instruments flying aboard aircraft and spacecraft. “The ability of Earth science instruments to precisely and autonomously know their position and velocity in real time is critical to many Earth-observing applications, including monitoring and responding to natural hazards such as earthquakes, volcanoes and hurricanes,” he said.
JPL’s Airborne Synthetic Aperture Radar Group already has used the precise real positioning from the Global Differential GPS system to improve the resolution of Earth images from NASA’s aircraft-based Airborne Synthetic Aperture Radar instrument, said Group Supervisor David Imel. Imel envisions even greater use for the system in the near future. “For missions where an aircraft must fly exactly the same flight profile repeatedly, in order to sense subtle changes in the Earth from one flight to the next, the need for the extremely precise navigational accuracy that this system provides is critical,” he said.
In space, precise onboard knowledge of position will improve the efficiency of a spacecraft’s onboard data processing and reduce the time needed to transmit data to the ground. Bar-Sever and his team have already conducted successful demonstrations of decimeter-level real-time satellite positioning using data from NASA’s Jason-1 spacecraft and the Argentinean Satelite de Aplicaciones Cientificas-C satellite.
Developed and operated by JPL since 1999 for NASA’s terrestrial, airborne and spaceborne science applications, NASA’s Global Differential GPS system provides end-to-end capabilities for autonomous, real-time orbit determination and positioning at unprecedented levels of accuracy and availability. The system processes real-time GPS data from a global network of more than 30 dual-frequency GPS ground sites. It is the only system in existence that provides global, multiply redundant, real-time coverage of all GPS satellites, all the time. It routinely and automatically produces the most accurate real-time estimates of GPS satellite orbits and clocks, media calibrations and many other products and performance metrics.
NASA’s Earth Science Technology Office funds the development of the Global Differential GPS system, with support from the Solid Earth and Natural Hazards Program within NASA’s Earth Science Enterprise. More information about the Internet-based Global Differential GPS system is available online at: http://gipsy.jpl.nasa.gov/igdg/ Q
For more information, contact Dr. Yoaz Bar-Sever, Supervisor, Orbiter and Radio Metric Systems Group, at Jet Propulsion Laboratory, Mail Stop 238-600, Pasadena, CA 91101, T: 818/354-2665, F: 818/393-4965, Yoaz.E.Bar-Sever@jpl.nasa.gov. Please mention you read about it in Innovation.
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