93-163

Radio Doppler Navigation Of Interplanetary Spacecraft Using Different Data Processing Modes

S. W. Thurman* and J. A. Estefant**

Abstract

Doppler shift measurements derived from closed-loop radio tracking of distant spacecraft by ground stations of the Deep Space Network (DSN) are one of the principal means used for interplanetary navigation. This paper describes an investigation of the navigation accuracy that can be achieved with two-way coherent X-band (7.2 to 8.4 GHz) Doppler phase and frequency data; both theoretical and practical aspects of the two Doppler formulations are addressed. A new filtering strategy is also proposed, which differs from current approaches in that most of the ground system calibration errors affecting the Doppler data are represented as filter parameters, in addition to the spacecraft trajectory parameters. Error covariance computations for application of the proposed filter to a navigation scenario derived from the Mars Observer mission are provided, in order to assess the performance that might be obtained in practice. The results indicate that with a phase formulation of the Doppler data and the new filter, navigation accuracies of 15 km at Mars (0.05 urad in an angular sense) are possible with the DSN's present X-band Doppler tracking system.
* Technical Manager, Navigation Systems Section. Jet Propulsion Laboratory, California Institute of Technology, MS 301-125J, 4800 Oak Grove Drive, Pasadena, California 91109. Member AAS; Senior Member AIAA.

** Member of the Technical Staff, Navigation Systems Section, Jet Propulsion Laboratory, California Institute of Technology, 4800 Oak Grove Drive, Pasadena, California 91109. Member AAS.