The results of an analysis of the effects of deterministic error sources on position error in the simplex strapdown navigation system were documented. Improving the long term accuracy of the system was addressed in two phases: understanding and controlling the error within the system, and defining methods of damping the net system error through the use of an external reference velocity or position. Review of the flight and ground data revealed error containing the Schuler frequency as well as non-repeatable trends. The only unbounded terms are those involving gyro bias and azimuth error coupled with velocity. All forms of Schuler-periodic position error were found to be sufficiently large to require update or damping capability unless the ...
This paper provides an error model of the strapped down inertial navigation system in the state spa...
Digital computer simulation of two strapdown system attitude algorithms by response to angular input...
This paper treats the RMS-errors associated with the position and velocity of a satellite or spacecr...
The results of a study of test data taken on the simplex strapdown navigation system were presented....
Error analysis of strapdown and local level inertial navigation systems which compute in geographic ...
Analysis of error propagation in aircraft inertial guidance systems using flight simulation and math...
Motion-induced errors in strapdown inertial navigation systems are discussed. The errors generated i...
Motion induced errors in a tuned, flexure-mounted strapdown gyro are investigated. Analytic expressi...
This paper provides an overview of the primary strapdown inertial system computational elements and ...
Tracking station location uncertainties studied for effect on root-mean-square errors in spacecraft ...
During the re-entry phase of a manned satellite, some equipment for continuous on-board indication o...
Self alignment techniques for strapdown inertial navigation systems for commercial aircraf
Influence on trajectory determination of error in tracking station location and station time and fre...
Computer-generated computational errors in direction cosine matrix for strapdown inertial syste
The results of a simulation study performed to determine the effects of gyro verticality error on la...
This paper provides an error model of the strapped down inertial navigation system in the state spa...
Digital computer simulation of two strapdown system attitude algorithms by response to angular input...
This paper treats the RMS-errors associated with the position and velocity of a satellite or spacecr...
The results of a study of test data taken on the simplex strapdown navigation system were presented....
Error analysis of strapdown and local level inertial navigation systems which compute in geographic ...
Analysis of error propagation in aircraft inertial guidance systems using flight simulation and math...
Motion-induced errors in strapdown inertial navigation systems are discussed. The errors generated i...
Motion induced errors in a tuned, flexure-mounted strapdown gyro are investigated. Analytic expressi...
This paper provides an overview of the primary strapdown inertial system computational elements and ...
Tracking station location uncertainties studied for effect on root-mean-square errors in spacecraft ...
During the re-entry phase of a manned satellite, some equipment for continuous on-board indication o...
Self alignment techniques for strapdown inertial navigation systems for commercial aircraf
Influence on trajectory determination of error in tracking station location and station time and fre...
Computer-generated computational errors in direction cosine matrix for strapdown inertial syste
The results of a simulation study performed to determine the effects of gyro verticality error on la...
This paper provides an error model of the strapped down inertial navigation system in the state spa...
Digital computer simulation of two strapdown system attitude algorithms by response to angular input...
This paper treats the RMS-errors associated with the position and velocity of a satellite or spacecr...