Performance evaluation and requirements assessment for gravity gradient referenced navigation

Jisun Lee, Jay Hyoun Kwon, Myeongjong Yu

Research output: Contribution to journalArticlepeer-review

28 Scopus citations

Abstract

In this study, simulation tests for gravity gradient referenced navigation (GGRN) are conducted to verify the effects of various factors such as database (DB) and sensor errors, flight altitude, DB resolution, initial errors, and measurement update rates on the navigation performance. Based on the simulation results, requirements for GGRN are established for position determination with certain target accuracies. It is found that DB and sensor errors and flight altitude have strong effects on the navigation performance. In particular, a DB and sensor with accuracies of 0.1 E and 0.01 E, respectively, are required to determine the position more accurately than or at a level similar to the navigation performance of terrain referenced navigation (TRN). In most cases, the horizontal position error of GGRN is less than 100 m. However, the navigation performance of GGRN is similar to or worse than that of a pure inertial navigation system when the DB and sensor errors are 3 E or 5 E each and the flight altitude is 3000 m. Considering that the accuracy of currently available gradiometers is about 3 E or 5 E, GGRN does not show much advantage over TRN at present. However, GGRN is expected to exhibit much better performance in the near future when accurate DBs and gravity gradiometer are available.

Original languageEnglish
Pages (from-to)16833-16847
Number of pages15
JournalSensors
Volume15
Issue number7
DOIs
StatePublished - 13 Jul 2015

Keywords

  • EKF
  • GGRN
  • Gravity gradient
  • Requirements analysis

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