Abstract This paper presents an enhanced algorithm for inertial gyrocompassing using strapdown sensors, which performs faster than the other available ones. The proposed algorithm is based on differential errors in an inertial navigation system and requires only the output of the inertial measurement unit while extracting and compensating for the inertial sensor errors. After eliminating the error of the inertial sensors, which is accomplished swiftly, the coarse alignment algorithm performs with error-compensated sensors, and the true north is extracted accurately. The number of non-observable parameters of the algorithm is equal to that of the fine alignment algorithm; therefore, its accuracy is the same as that of a well-tuned fine align...
An improved coarse alignment (ICA) algorithm is proposed in this paper with a focus on improving ali...
This paper presents a new method for rapid transfer alignment of strapdown inertial navigation syste...
Based on the principle of the strap-down inertial navigation system and the attitude algorithm, a no...
AbstractThe problem of gyrocompassing using inertial sensors, i.e., gyros and accelerometers, is add...
An improved method of gyrocompass alignment for strap-down inertial navigation system (SINS) on movi...
In this paper, an innovative inertial navigation system (INS) mechanization and the associated Kalma...
Iterative algorithms based on saved data have been researched for strapdown inertial navigation syst...
In this paper, a new alignment algorithm that uses simultaneously both open-loop and closedloop sch...
In this paper, we proposed a coarse-alignment method for strapdown inertial navigation systems based...
This paper provides an overview of the primary strapdown inertial system computational elements and ...
A discontinuity seems to exist in present aided inertial navigation systems – the operational avail...
Abstract- An alternative solution to the velocity based self-alignment of strapdown inertial navigat...
Two viewpoints are given: (1) initial alignment of strapdown inertial navigation system (SINS) can b...
Inertial navigation systems are in common use for decades due to its advantages. Since INS outputs a...
Along with the development of computer technology and informatization, the unmanned vehicle has beco...
An improved coarse alignment (ICA) algorithm is proposed in this paper with a focus on improving ali...
This paper presents a new method for rapid transfer alignment of strapdown inertial navigation syste...
Based on the principle of the strap-down inertial navigation system and the attitude algorithm, a no...
AbstractThe problem of gyrocompassing using inertial sensors, i.e., gyros and accelerometers, is add...
An improved method of gyrocompass alignment for strap-down inertial navigation system (SINS) on movi...
In this paper, an innovative inertial navigation system (INS) mechanization and the associated Kalma...
Iterative algorithms based on saved data have been researched for strapdown inertial navigation syst...
In this paper, a new alignment algorithm that uses simultaneously both open-loop and closedloop sch...
In this paper, we proposed a coarse-alignment method for strapdown inertial navigation systems based...
This paper provides an overview of the primary strapdown inertial system computational elements and ...
A discontinuity seems to exist in present aided inertial navigation systems – the operational avail...
Abstract- An alternative solution to the velocity based self-alignment of strapdown inertial navigat...
Two viewpoints are given: (1) initial alignment of strapdown inertial navigation system (SINS) can b...
Inertial navigation systems are in common use for decades due to its advantages. Since INS outputs a...
Along with the development of computer technology and informatization, the unmanned vehicle has beco...
An improved coarse alignment (ICA) algorithm is proposed in this paper with a focus on improving ali...
This paper presents a new method for rapid transfer alignment of strapdown inertial navigation syste...
Based on the principle of the strap-down inertial navigation system and the attitude algorithm, a no...