Since 1969, flight experience has been used as the basis for predicting Scout orbital accuracy. The data used for calculating the accuracy consists of errors in the trajectory parameters (altitude, velocity, etc.) at stage burnout as observed on Scout flights. Approximately 50 sets of errors are used in Monte Carlo analysis to generate error statistics in the trajectory parameters. A covariance matrix is formed which may be propagated in time. The mechanization of this process resulted in computer program Scout Trajectory Error Propagation (STEP) and is described herein. Computer program STEP may be used in conjunction with the Statistical Orbital Analysis Routine to generate accuracy in the orbit parameters (apogee, perigee, inclination, e...
Computer programs provide preliminary trajectory and guidance information required for feasibility s...
Trajectory optimization and linearized pitch computer program for Scout launch vehicl
Subroutines, logic, and input/output formats for STEP programs on preflight and postflight trajector...
A FORTRAN coded computer program is described which calculates orbital inclination error statistics ...
A computer program was developed which performs an error analysis of a minimum-fuel, finite-thrust, ...
G-CAT is a covariance analysis tool that enables fast and accurate computation of error ellipses for...
Computer program for numerical integration of equations of motion for artificial earth satellite orb...
A market survey and evaluation of inertial guidance systems (inertial measurement units and digital ...
Computer program with predictor-corrector numerical integration subroutine for fast trajectory analy...
A computer program was developed which performs an error analysis of a minimum-fuel, finite-thrust, ...
Mathematical equations for the analysis of the errors that are expected in a set of postflight aerod...
Flight test data was used to develop a methodology for modeling MLS range navigation system errors. ...
Programmers manual for error propagation analysis in lunar and planetary trajectory tracking system
Input and operating instructions, and sample problems for IBM 7094 computer programs - interplanetar...
Precision trajectory and targetting, tape read and write, and patched-conic error propagation develo...
Computer programs provide preliminary trajectory and guidance information required for feasibility s...
Trajectory optimization and linearized pitch computer program for Scout launch vehicl
Subroutines, logic, and input/output formats for STEP programs on preflight and postflight trajector...
A FORTRAN coded computer program is described which calculates orbital inclination error statistics ...
A computer program was developed which performs an error analysis of a minimum-fuel, finite-thrust, ...
G-CAT is a covariance analysis tool that enables fast and accurate computation of error ellipses for...
Computer program for numerical integration of equations of motion for artificial earth satellite orb...
A market survey and evaluation of inertial guidance systems (inertial measurement units and digital ...
Computer program with predictor-corrector numerical integration subroutine for fast trajectory analy...
A computer program was developed which performs an error analysis of a minimum-fuel, finite-thrust, ...
Mathematical equations for the analysis of the errors that are expected in a set of postflight aerod...
Flight test data was used to develop a methodology for modeling MLS range navigation system errors. ...
Programmers manual for error propagation analysis in lunar and planetary trajectory tracking system
Input and operating instructions, and sample problems for IBM 7094 computer programs - interplanetar...
Precision trajectory and targetting, tape read and write, and patched-conic error propagation develo...
Computer programs provide preliminary trajectory and guidance information required for feasibility s...
Trajectory optimization and linearized pitch computer program for Scout launch vehicl
Subroutines, logic, and input/output formats for STEP programs on preflight and postflight trajector...