Add to ORKGA detailed analysis was conducted to determine the sensitivity of spacecraft navigation errors to the accuracy and timeliness of Earth orientation calibrations. Analyses based on simulated X-band (8.4-GHz) Doppler and ranging measurements acquired during the interplanetary cruise segment of the Mars Pathfinder heliocentric trajectory were completed for the nominal trajectory design and for an alternative trajectory with a longer transit time. Several error models were developed to characterize the effect of Earth orientation on navigational accuracy based on current and anticipated Deep Space Network calibration strategies. The navigational sensitivity of Mars Pathfinder to calibration errors in Earth orientation was computed for each candi...
Influence of uncertainties in planetary mass of Mars and astronomical unit on Earth-Mars trajectorie
Real-time navigation during the final approach phase of an interplanetary mission can significantly ...
Real-time navigation during the final approach phase of an interplanetary mission can significantly ...
Modern spacecraft tracking and navigation require highly accurate Earth-orientation parameters. For ...
This article describes an error covariance analysis based on a Mars Observer mission scenario; the s...
A consider error covariance analysis was performed in order to investigate the orbit-determination p...
In Part 1 of this two-part article, an error budget is presented for Earth-based delta differential ...
Doppler tracking by the Deep Space Network (DSN) is the primary radio metric data type used by navig...
An error budget analysis is presented which quantifies the effects of different error sources in the...
Future Mars exploration missions, both robotic and piloted, may utilize Earth to Mars transfer traje...
The application of precision two-way ranging to orbit determination with relatively short data arcs ...
A navigation error covariance analysis of four highly elliptical Earth orbits is described, with apo...
This paper summarizes a compilation of attitude determination accuracies attained by a number of sat...
Error propagation program simulating earth based tracking for navigation and guidance analysis of Ma...
An analysis of navigational accuracy when influenced by ground vehicle dynamics is presented. Tests ...
Influence of uncertainties in planetary mass of Mars and astronomical unit on Earth-Mars trajectorie
Real-time navigation during the final approach phase of an interplanetary mission can significantly ...
Real-time navigation during the final approach phase of an interplanetary mission can significantly ...
Modern spacecraft tracking and navigation require highly accurate Earth-orientation parameters. For ...
This article describes an error covariance analysis based on a Mars Observer mission scenario; the s...
A consider error covariance analysis was performed in order to investigate the orbit-determination p...
In Part 1 of this two-part article, an error budget is presented for Earth-based delta differential ...
Doppler tracking by the Deep Space Network (DSN) is the primary radio metric data type used by navig...
An error budget analysis is presented which quantifies the effects of different error sources in the...
Future Mars exploration missions, both robotic and piloted, may utilize Earth to Mars transfer traje...
The application of precision two-way ranging to orbit determination with relatively short data arcs ...
A navigation error covariance analysis of four highly elliptical Earth orbits is described, with apo...
This paper summarizes a compilation of attitude determination accuracies attained by a number of sat...
Error propagation program simulating earth based tracking for navigation and guidance analysis of Ma...
An analysis of navigational accuracy when influenced by ground vehicle dynamics is presented. Tests ...
Influence of uncertainties in planetary mass of Mars and astronomical unit on Earth-Mars trajectorie
Real-time navigation during the final approach phase of an interplanetary mission can significantly ...
Real-time navigation during the final approach phase of an interplanetary mission can significantly ...