Title :
Range Measurement as Practiced in the Deep Space Network
Author :
Berner, Jeff B. ; Bryant, Scott H. ; Kinman, Peter W.
Author_Institution :
California Inst. of Technol., Pasadena
Abstract :
Range measurements are used to improve the trajectory models of spacecraft tracked by the deep space network. The unique challenge of deep-space ranging is that the two-way delay is long, typically many minutes, and the signal-to-noise ratio is small. Accurate measurements are made under these circumstances by means of long correlations that incorporate Doppler rate-aiding. This processing is done with commercial digital signal processors, providing a flexibility in signal design that can accommodate both the traditional sequential ranging signal and pseudonoise range codes. Accurate range determination requires the calibration of the delay within the tracking station. Measurements with a standard deviation of 1 m have been made.
Keywords :
celestial mechanics; distance measurement; pseudonoise codes; radioastronomical techniques; signal processing; space communication links; space vehicles; Deep Space Network; Doppler rate-aiding; digital signal processors; pseudonoise range codes; range measurement; signal-to-noise ratio; spacecraft; Clocks; Decision support systems; Delay; Downlink; Signal to noise ratio; Space vehicles; Spread spectrum communication; Synchronization; Trajectory; Transponders; Deep Space Network; pseudonoise ranging; range measurement; sequential ranging;
Journal_Title :
Proceedings of the IEEE
DOI :
10.1109/JPROC.2007.905128
