Add to ORKGComputer simulation results of attitude estimation of Earth-orbiting satellites (including Space Telescope) subjected to environmental disturbances and noises are presented. Decomposed linear recursive filter and Kalman filter were used as estimation tools. Six programs were developed for this simulation, and all were written in the basic language and were run on HP 9830A and HP 9866A computers. Simulation results show that a decomposed linear recursive filter is accurate in estimation and fast in response time. Furthermore, for higher order systems, this filter has computational advantages (i.e., less integration errors and roundoff errors) over a Kalman filter
Digital computer simulation of two strapdown system attitude algorithms by response to angular input...
The Tropical Rainfall Measuring Mission (TRMM) spacecraft is a nadir pointing spacecraft that nomina...
Purpose: This paper aims to present the development and performance evaluation of an attitude and ra...
Attitude estimation of earth orbiting satellites (including Large Space Telescope) subjected to envi...
Satellite attitude determination by simulation program using Monte Carlo sampling and Kalman-Schmidt...
A weighted least-squares recursive estimator program is reported for simulating spacecraft orbital p...
Computer program for determining attitude of orbiting vehicle using Kalman filte
Methods of determining satellite orbit and attitude parameters are considered. The Goddard Trajector...
Prediction Algorithms for the Attitude Estimator The attitude estimator is an extended Kalman filte...
Precision attitude determination for recent and planned space missions typically includes quaternion...
An adaptive Kalman filter design that utilizes recursive maximum likelihood parameter identification...
This paper mainly focuses on the maneuver of the satellite in orbit. A non-linear multi-inputs multi...
Twenty-six papers and abstracts are presented. A wide range of issues related to orbit attitude pred...
Methods of orbital position estimation were reviewed. The problem of accuracy in orbital mechanics i...
In this paper, several attitude estimation designs are developed for the Tropical Rainfall Measureme...
Digital computer simulation of two strapdown system attitude algorithms by response to angular input...
The Tropical Rainfall Measuring Mission (TRMM) spacecraft is a nadir pointing spacecraft that nomina...
Purpose: This paper aims to present the development and performance evaluation of an attitude and ra...
Attitude estimation of earth orbiting satellites (including Large Space Telescope) subjected to envi...
Satellite attitude determination by simulation program using Monte Carlo sampling and Kalman-Schmidt...
A weighted least-squares recursive estimator program is reported for simulating spacecraft orbital p...
Computer program for determining attitude of orbiting vehicle using Kalman filte
Methods of determining satellite orbit and attitude parameters are considered. The Goddard Trajector...
Prediction Algorithms for the Attitude Estimator The attitude estimator is an extended Kalman filte...
Precision attitude determination for recent and planned space missions typically includes quaternion...
An adaptive Kalman filter design that utilizes recursive maximum likelihood parameter identification...
This paper mainly focuses on the maneuver of the satellite in orbit. A non-linear multi-inputs multi...
Twenty-six papers and abstracts are presented. A wide range of issues related to orbit attitude pred...
Methods of orbital position estimation were reviewed. The problem of accuracy in orbital mechanics i...
In this paper, several attitude estimation designs are developed for the Tropical Rainfall Measureme...
Digital computer simulation of two strapdown system attitude algorithms by response to angular input...
The Tropical Rainfall Measuring Mission (TRMM) spacecraft is a nadir pointing spacecraft that nomina...
Purpose: This paper aims to present the development and performance evaluation of an attitude and ra...