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Robotic Research Goes Off-Road
SGI technology provides critical tools for team competing in defense department-sponsored autonomous ground vehicle race For decades, scientists and engineers have worked on how to overcome the challenges of applying robotic technology to replace or supplement human intervention in a variety of environments.
Currently, U.S. troops in Afghanistan use robots to explore enemy caves, and in Iraq robots help to detect roadside explosive devices and to inspect weapons caches. In the future, the U.S. military is looking to ground-based robotic vehicles to play a broader role in combat situations in order to keep soldiers out of harm's way. Towards this end, SGI visualization and storage technology is helping a Carnegie Mellon University-led team to prepare for a 175-mile race this fall sponsored by the Defense Advanced Research Projects Agency (DARPA) that is designed to demonstrate the efficacy of autonomous ground vehicles to navigate treacherous desert roads and trails - without human drivers - and in the least amount of time. The 2005 DARPA Grand Challenge will be held on October 8, 2005 in the Mojave Desert and will include both natural and man-made obstacles throughout the racecourse. The team that develops an autonomous ground vehicle that finishes the designated route in the shortest amount of time within the 10-hour time limit will receive a $2 million prize. Because the exact route will not be revealed to competing teams until two hours before the race begins, the ability to quickly, effectively and accurately plan the best route will be a strategic advantage for achieving success on race day. No remote control is allowed in the DARPA Grand Challenge race,
A four-processor Silicon Graphics Prism® power configuration and a two-processor Silicon Graphics Prism® deskside configuration, each with two graphics pipes, will provide Carnegie Mellon University's Red Team with the computing muscle and visualization capabilities to enable route planning for its two robotic vehicles competing in this year's DARPA Grand Challenge. The Red Team uses a combination of archived terrain data and preplanned route locations referenced and tracked via the Global Positioning System (GPS), as well as on-board sensors to help decide the best path and how to overcome obstacles along the way. A 10TB SGI® InfiniteStorage TP9500 storage array from SGI and Engenio will store satellite imagery data of the route. The Red Team will preload millions of points of terrain data on the Nevada desert race site for pretesting the vehicle, and for the actual race the team will rely on the industry-leading speed of the TP9500 to readily process the satellite data for mapping to the final race route. "SGI's contribution to the Red Team with its powerful Prism and InfiniteStorage systems has huge advantages for the planning and simulation that ultimately determines the intended route and speed of our unmanned vehicles at race time," said Carnegie Mellon University's William "Red" Whittaker, captain of the Red Team. "With ready access to the satellite data and SGI's advanced visualization features and Intel Itanium 2 processors, Silicon Graphics Prism is truly a high-performance system that blazes through our biggest and most demanding sets of terrain data, providing our team with a highly accurate map of the route and what we believe will be the winning edge for our vehicles to run a successful race."
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