Analytical Evaluation of a Method of Midcourse Guidance for Rendezvous with Earth Satellites
Analytical Evaluation of a Method of Midcourse Guidance for Rendezvous with Earth Satellites

Author: John M. Eggleston

Publisher:

Published: 1961

Total Pages: 68

ISBN-13:

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A digital-computer simulation was made of the midcourse (or ascent) phase of a rendezvous between a ferry vehicle and a space station. The simulation involved a closed-loop guidance system in which both the relative position and relative velocity between ferry and station are measured (by simulated radar) and the relative-velocity corrections required to null the miss distance computed and applied. The results are used to study the effectiveness of the guidance equations and the effects of errors in launch conditions and errors in the navigation (radar) data. Trajectories are presented for rendezvous with a space station in a circular orbit and in an elliptic orbit. (Author).

A Study of the Effect of Errors in Measurement of Velocity and Flight-path Angle on the Guidance of a Space Vehicle Approaching the Earth
A Study of the Effect of Errors in Measurement of Velocity and Flight-path Angle on the Guidance of a Space Vehicle Approaching the Earth

Author: Jack A. White (researcher)

Publisher:

Published: 1961

Total Pages: 44

ISBN-13:

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An analysis was made of the guidance of a space vehicle approaching the earth at supercircular velocity through an entrance corridor containing a desired perigee altitude. Random errors were assumed in the measurement of velocity and flight-path angle and in obtaining the desired thrust impulse. The method described in NASA Technical Note D-191 of scheduling corrections at different values of the angle between perigee and the vehicle's position vector and a slight modification of this method were investigated as a means of correcting perigee altitude when the vehicle's predicted position was at programmed correction points not within a specified deadband about the desired perigee altitude. The study showed that modifying the angular method of NASA Technical Note D-191 by adding another correction near the initial point did not improve the efficiency and accuracy of the angular method. It was found that in some cases the use of a correction procedure which included a deadband could be more costly in total corrective velocity than a procedure which neglected the deadband. This was especially true if a large degree of confidence was required in the total corrective velocity. It was apparent from the results that a correction with a deadband limit in the guidance scheme was more sensitive to the initial conditions, the corrective procedure, the deadband, and the degree of confidence required than a correction without a deadband limit.

A Study of Statistical Data-adjustment and Logic Techniques as Applied to the Interplanetary Mid-course Guidance Problem
A Study of Statistical Data-adjustment and Logic Techniques as Applied to the Interplanetary Mid-course Guidance Problem

Author: Alan L. Friedlander

Publisher:

Published: 1961

Total Pages: 40

ISBN-13:

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A statistical analysis and evaluation of the effect of data-adjustment and decision techniques on the efficiency of midcourse guidance maneuvers are presented. A potentially self-contained optical navigation scheme is hypothesized, and all random measurement errors are considered specified by Gaussian distributions. The basic guidance equations are developed using linear perturbations methods. The nature of data-adjustment procedure is that the accuracy of terminal prediction improves successively from one guidance point to the next. Guidance logic, based on dead-band and damping decision expressions, further reduces the velocity-increment cost and number of corrections required.