Title :
High accuracy airborne GPS positioning: testing, data processing and results
Author :
Shi, J. ; Cannon, M.E.
Author_Institution :
Dept. of Geomatics Eng., Calgary Univ., Alta., Canada
Abstract :
Results from an airborne DGPS test are presented in which two receivers were used as monitor stations and another two were installed on the aircraft. Four Trimble SSE receivers were used and monitor-aircraft separations of up to 200 km were experienced during the test flights. Receiver configurations, data processing techniques and accuracy checking methods are discussed with respect to high accuracy airborne positioning. Errors from the ionosphere and orbit are discussed and analyzed using the test data. Several computational scenarios are used to assess the potential accuracy. Based on these computations and analyses, results indicate that the accuracy of airborne DGPS positioning with monitor-remote separations in the range of 50-200 km is at the level of 10 cm using high quality receivers and reliable ambiguity initialization. This positional accuracy fulfils most practical airborne applications such as photogrammetry and remote sensing
Keywords :
aerospace testing; aircraft; aircraft instrumentation; radio receivers; radionavigation; satellite relay systems; 50 to 200 km; Trimble SSE receivers; accuracy checking methods; airborne DGPS test; airborne GPS positioning; airborne applications; aircraft separations; ambiguity initialization; data processing; ionosphere errors; monitor stations; monitor-remote separations; orbit errors; photogrammetry; positional accuracy; receiver configurations; receivers; remote sensing; test data; test flights; Aerospace engineering; Aircraft propulsion; Biographies; Data processing; Geodesy; Global Positioning System; Lakes; Occupational safety; Remote monitoring; Testing;
Conference_Titel :
Position Location and Navigation Symposium, 1994., IEEE
Conference_Location :
Las Vegas, NV
Print_ISBN :
0-7803-1435-2
DOI :
10.1109/PLANS.1994.303408
