A FORTRAN coded computer program is described which calculates orbital inclination error statistics using a closed-form solution. This solution uses a data base of trajectory errors from actual flights to predict the orbital inclination error statistics. The Scott flight history data base consists of orbit insertion errors in the trajectory parameters - altitude, velocity, flight path angle, flight azimuth, latitude and longitude. The methods used to generate the error statistics are of general interest since they have other applications. Program theory, user instructions, output definitions, subroutine descriptions and detailed FORTRAN coding information are included
Subroutine descriptions and listing for FORTRAN 4 orbit determination program - G through
Precision trajectory and targetting, tape read and write, and patched-conic error propagation develo...
Input and operating instructions, and sample problems for IBM 7094 computer programs - interplanetar...
Since 1969, flight experience has been used as the basis for predicting Scout orbital accuracy. The ...
A FORTRAN coded computer program which generates CalComp plots of trajectory parameters is examined....
Computer-generated computational errors in direction cosine matrix for strapdown inertial syste
A FORTRAN coded computer program which generates and plots elliptical orbit performance capability o...
Programmers manual for error propagation analysis in lunar and planetary trajectory tracking system
Computer program for solving attitude error equations related to gimballed platform is described. Pr...
Delta PAC satellite attitude determination and error prediction project, with vector analysis and FO...
G-CAT is a covariance analysis tool that enables fast and accurate computation of error ellipses for...
The results of an analysis of the effects of deterministic error sources on position error in the si...
Computer program for determining attitude of orbiting vehicle using Kalman filte
The six month effort was responsible for the development, test, conversion, and documentation of com...
A computer system is described which can process raw tracker data from low or intermediate altitude ...
Subroutine descriptions and listing for FORTRAN 4 orbit determination program - G through
Precision trajectory and targetting, tape read and write, and patched-conic error propagation develo...
Input and operating instructions, and sample problems for IBM 7094 computer programs - interplanetar...
Since 1969, flight experience has been used as the basis for predicting Scout orbital accuracy. The ...
A FORTRAN coded computer program which generates CalComp plots of trajectory parameters is examined....
Computer-generated computational errors in direction cosine matrix for strapdown inertial syste
A FORTRAN coded computer program which generates and plots elliptical orbit performance capability o...
Programmers manual for error propagation analysis in lunar and planetary trajectory tracking system
Computer program for solving attitude error equations related to gimballed platform is described. Pr...
Delta PAC satellite attitude determination and error prediction project, with vector analysis and FO...
G-CAT is a covariance analysis tool that enables fast and accurate computation of error ellipses for...
The results of an analysis of the effects of deterministic error sources on position error in the si...
Computer program for determining attitude of orbiting vehicle using Kalman filte
The six month effort was responsible for the development, test, conversion, and documentation of com...
A computer system is described which can process raw tracker data from low or intermediate altitude ...
Subroutine descriptions and listing for FORTRAN 4 orbit determination program - G through
Precision trajectory and targetting, tape read and write, and patched-conic error propagation develo...
Input and operating instructions, and sample problems for IBM 7094 computer programs - interplanetar...