Add to ORKGAttempts made to obtain a description of the in-orbit dynamic behavior of the RAE-B spacecraft and account for the discrepancies between predicted and actual in-orbit performance are reported. In particular, attitude dynamics during the final despin operations in lunar orbit, throughout all deployment operations, and into the final steady state mission mode were investigated. Attempts made to match computer simulation results to the observed equilibrium data are discussed. Due to a damaged antenna boom and the unavailability of sufficient attitude and dynamics data, most of the objectives were not realized
Propagating attitude by integrating Euler's equation for rigid body motion has long been suggested f...
A general procedure for predicting launch opportunities for the RAE-B lunar orbiter mission is prese...
The Lunar Reconnaissance Orbiter (LRO) was launched in 2009 and, with itsseven science instruments, ...
The RAE-1 spacecraft inversion performed October 31, 1972 is described based upon the in-orbit dynam...
Onboard sensors and associated ground based processing systems are used to maintain a well stabilize...
A series of seven gravity-gradient dynamics experiments is proposed utilizing the Radio Astronomy Ex...
Gravity gradient dynamics experiments using Radio Astronomy Explorer Satellite in earth orbi
Analysis of launch opportunities for Radio Astronomy Explorer-B satellite during period Mar. through...
An instrument system to acquire attitude determination data for the RAE-B spacecraft was designed an...
Numerical predictions of effective operating periods for RAE-A satellite vidicon camera used for mea...
Previous papers have described the modification of the Earth Radiation Budget Satellite (ERBS) Attit...
Flexible body analog computer program and rigid body digital computer program for calculating dynami...
Method for predicting times unsuitable for useful camera operation for Radio Astronomy Explorer sate...
The RAE-2 spacecraft has been collecting radio astronomical measurements in the 25 kHz to 13 MHz fre...
Failures and deficiencies in flight programs are reviewed and suggestions are made for avoiding them...
Propagating attitude by integrating Euler's equation for rigid body motion has long been suggested f...
A general procedure for predicting launch opportunities for the RAE-B lunar orbiter mission is prese...
The Lunar Reconnaissance Orbiter (LRO) was launched in 2009 and, with itsseven science instruments, ...
The RAE-1 spacecraft inversion performed October 31, 1972 is described based upon the in-orbit dynam...
Onboard sensors and associated ground based processing systems are used to maintain a well stabilize...
A series of seven gravity-gradient dynamics experiments is proposed utilizing the Radio Astronomy Ex...
Gravity gradient dynamics experiments using Radio Astronomy Explorer Satellite in earth orbi
Analysis of launch opportunities for Radio Astronomy Explorer-B satellite during period Mar. through...
An instrument system to acquire attitude determination data for the RAE-B spacecraft was designed an...
Numerical predictions of effective operating periods for RAE-A satellite vidicon camera used for mea...
Previous papers have described the modification of the Earth Radiation Budget Satellite (ERBS) Attit...
Flexible body analog computer program and rigid body digital computer program for calculating dynami...
Method for predicting times unsuitable for useful camera operation for Radio Astronomy Explorer sate...
The RAE-2 spacecraft has been collecting radio astronomical measurements in the 25 kHz to 13 MHz fre...
Failures and deficiencies in flight programs are reviewed and suggestions are made for avoiding them...
Propagating attitude by integrating Euler's equation for rigid body motion has long been suggested f...
A general procedure for predicting launch opportunities for the RAE-B lunar orbiter mission is prese...
The Lunar Reconnaissance Orbiter (LRO) was launched in 2009 and, with itsseven science instruments, ...