Lightweight Precision Inertial Computation based on Chebyshev Polynomial Optimization

The strapdown inertial navigation system (INS) is to provide attitude, velocity and position information by integrating inertial measurements from gyroscopes and accelerometers. The advances in the ultrahigh precision gyroscopes and high dynamic applications demand for more accurate inertial navigat...

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Vydáno v:2022 29th Saint Petersburg International Conference on Integrated Navigation Systems (ICINS) s. 1 - 9
Hlavní autoři: Zhu, Maoran, Wu, Yuanxin
Médium: Konferenční příspěvek
Jazyk:angličtina
Vydáno: Elektropribor 30.05.2022
Témata:
Approximation algorithms
Chebyshev approximation
Chebyshev Polynomial
Chebyshev Polynomial Optimization
Computational efficiency
Gyroscopes
Heuristic algorithms
Inertial navigation
Navigation Computation
Non-commutativity error
Position measurement
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Shrnutí:The strapdown inertial navigation system (INS) is to provide attitude, velocity and position information by integrating inertial measurements from gyroscopes and accelerometers. The advances in the ultrahigh precision gyroscopes and high dynamic applications demand for more accurate inertial navigation computation. This paper proposes a lightweight but precision inertial navigation computation algorithm based on the Chebyshev polynomial optimization. Specifically, the attitude, velocity and position are approximated by Chebyshev polynomials and the INS computation task is transformed into problem of polynomial coefficients optimization. Numerical results show that the derived polynomial optimization-based algorithm achieves precision and lightweight inertial navigation computation, that is to say, not only reducing the motion noncommutativity error to the machine precision level but possessing much improved computational efficiency against the state of the art.
DOI:10.23919/ICINS51784.2022.9815364