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SELF-ORIENTING AND LOCATING UNITBriggs, James R., Youssef, Ahmed H. 10 1900 (has links)
International Telemetering Conference Proceedings / October 26-29, 1998 / Town & Country Resort Hotel and Convention Center, San Diego, California / Optical trackers are often used at the Air Force Flight Test Center (AFFTC) and at other
Department of Defense (DoD) ranges to collect video and trajectory data for real-time
display and postflight processing. When optical trackers are used in remote areas,
pointing data from radar is utilized to enable the trackers to initially acquire targets. To
enable the trackers to use radar-pointing data, offsets to true north must first be known.
This offset is taken into account given the current position of the optical tracker. During
postflight processing, when determining the trajectory of the target, the offsets are also
taken into account to produce an accurate trajectory solution. Current methods of
determining offsets to true north are time consuming and involve a lot of guesswork.
Typically, a map and a known landmark are used to determine the offsets to true north.
Another method is to look for the North Star (Polaris) and input an estimated offset. This
paper will describe an inexpensive, stand-alone system that utilizes the Global
Positioning System (GPS) to determine these offsets. This device may be modified and
integrated with other systems that may need to point accurately. For example, a gun
barrel on a tank may need to point accurately to within a degree. This device may also be
used to accurately position telemetry antennas.
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