Title :
An overview of a Global Positioning System Mission Planner implemented on a personal computer
Author :
Avila, Paul G. ; Karels, Steven N. ; Macdonald, Thomas J. ; Matchett, Gary A. ; Roberts, Iris P. ; Gloster, Vance
Author_Institution :
Anal. Sci. Corp., Reading, MA, USA
Abstract :
The Global Positioning System (GPS) Mission Planner (GMP) program, which has been implemented on an IBM PC, is described in terms of its features and architecture, and sample outputs are presented. The GMP was written to permit operational units to plan missions and to accomplish survivability and navigation assessments based on realistic trajectories, GPS almanac data, broadband jammer specifications, and digital terrain elevation data (DTED). GMP supports trajectory generation for generic air, land, or naval vehicles and has ´sanity´ checks for altitude acceleration, terrain slope, and velocity limits. A survivability measure is computed based on exposure time to various threat types. Yuma-type almanac data are used to support the GMP to define GPS satellite orbits. Jammers, threats, and trajectory wavepoints may be defined by either keyboard entry (e.g. longitude, latitude, and altitude) or via mouse and cursor on a displayed pseudo-color DTED map on the PC monitor. Satellite visibility and best dilution-of-precision (DOP) are computed using DTED. jammer visibility and power levels at the vehicle are similarly computed. A realistic body masking and antenna gain model is used to compute carrier-to-noise densities for each visible satellite. A navigation assessment program emulates a multichannel receiver to generate position and velocity measurement uncertainties. An integrated Kalman filter generates position and velocity navigation estimates. Results are graphically displayed to the operator.<>
Keywords :
IBM computers; Kalman filters; jamming; microcomputer applications; military computing; military systems; radionavigation; satellite relay systems; Global Positioning System Mission Planner; IBM PC; altitude acceleration; broadband jammer specifications; carrier-to-noise densities; cursor; digital terrain elevation data; exposure time; integrated Kalman filter; military computing; mouse; multichannel receiver; navigation assessments; personal computer; position measurement uncertainty; pseudocolour map; radionavigation; survivability; terrain slope; threats; trajectory generation; trajectory wavepoints; velocity limits; velocity measurement uncertainties; Acceleration; Extraterrestrial measurements; Global Positioning System; Jamming; Land vehicles; Level measurement; Satellite navigation systems; Terrain mapping; Time measurement; Trajectory;
Journal_Title :
Aerospace and Electronic Systems Magazine, IEEE
