Differential Solutions Using Long-Range Dual-Frequency GPS Correction Data

Abstract

Military applications of space-based navigation systems have led to important enhancements to our fighting capability and are being applied to many phases of operations. The Global Positioning System (GPS) is a key factor for making this a reality. GPS provides accurate position, velocity and time information. Stand-alone GPS receivers may not provide the requisite accuracy to fulfill mission requirements. This thesis focused on the accuracy and relevance of applying dual-frequency GPS correction data to compute differential GPS (DGPS) solutions, Analysis was performed to assess the viability of using correction data from reference receivers at extended ranges, 2000- 3000 km away, to perform after-the-fact positioning by analyzing stand-alone GPS accuracy versus dual-frequency corrected techniques. This could be extended to real- time operations. The differentially- corrected technique produced more accurate results than stand- alone GPS at all ranges. The stand-alone GPS horizontal root mean square (RMS) accuracy was 5.9 meters while the differentially- corrected RMS accuracy was under 1.5 meters to 2000 kilometers and under 3.0 meters to 3200 kilometers. The process has applicability in determining GPS solutions for long-range military uses. It is possible to use U.S. or Allied GPS assets at long distances from areas of operations to prosecute targets of high interest.

Document Details

Document Type

Technical Report

Publication Date

Sep 01, 2002

Accession Number

ADA407080

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