Algorithm of Analytical Bank-And-Climb Gyro Unit Without a Heading Gyro

Authors

  • Pjotrs Trifonovs-Bogdanovs Institute of Aeronautics, Faculty of Mechanical Engineering, Transport and Aeronautics, Riga Technical University, Latvia
  • Artūrs Levikins Institute of Aeronautics, Faculty of Mechanical Engineering, Transport and Aeronautics, Riga Technical University, Latvia
  • Vadims Kirillovs Institute of Aeronautics, Faculty of Mechanical Engineering, Transport and Aeronautics, Riga Technical University, Latvia
  • Zarif Zabirov Institute of Aeronautics, Faculty of Mechanical Engineering, Transport and Aeronautics, Riga Technical University, Latvia https://orcid.org/0000-0002-0052-5283

DOI:

https://doi.org/10.1515/tae-2016-0009

Keywords:

Angular movement, bank-and-climb gyro unit, body-fixed system, geographical reference system

Abstract

An analytical bank-and-climb gyro unit supplies the flight crew with information about aircraft angular movement relative to the local vertical. This article describes the particular principles of unit operation providing a step by step explanation of principles governing the operation of the analytical bank-and-climb gyro unit and provides a kinematic scheme of the unit. The article also gives an insight into the occurrence of errors in the bank-and-climb gyro unit as well as explains their significance.

References

P. Trifonov-Bogdanov, Inertial Navigation Basics. Riga: RKIIGA, 1984.

W. Wrigley, W. Hollister and W. Denhard, Gyroscopic Theory, Design and Instrumentation, Cambridge: M.I.T. Press, 1969.

M, S. Grewal, L. R. Weill and A. P. Andrews, Global Positioning Systems, Inertial Navigation and Integration. New York: Wiley, 2004.

I. Vaisgant, Inertial Navigation Systems Structure Principles. Saint Petersburg: LETI, 1984.

P. Bromberg, Inertial Navigation Systems Theory. Moscow: Nauka, 1979.

D. Pelpor, I. Mihalev and V. Bauman, Gyro systems. Moscow: Visaja Skola, 1988.

A. Ishlinsky, Alignment, gyros and Inertial Navigation, Moscow: Nauka, 1976.

G. Fridlender, Inerciālās navigācijas sistēmas, Moscow: GIFML, 1961.

A. Lawrence, Modern Inertial Technology, Berlin: Springer, 2001.

M. Zaharin and F. Zaharin, Inertial Navigation Systems Kinematics, Moscow: Masinostroenie, 1968.

V. Bulatov, Aviation Gyro Devices. Vyborg: VATKGA, 2004.

N. Vinicenko, D. Kacay and A. Lisova, Gyro Devices Theory, Chelyabinsk: UuRGu, 2010.

K. Britting, Inertial Navigation Systems Analysis, London: Artech House Print, 2010

V. Matvejev, Inertial Navigation Systems, Tula: TulGu, 2012.

A. Yakushenkov, Inertial Navigation Basics, Moscow: Morskoy Transport, 1963.

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Published

22.03.2021

Issue

Vol. 3 No. 1 (2016): Transport and Aerospace Engineering

Section

Articles