MATHEMATICAL MODELING OF GEONAVIGATION INFORMATION-MEASUREMENT SYSTEMS WITH THREE-COMPONENT ACCELEROMETRIC SENSORS

Milovzorov Dmitriy; Butorin Akim; Chelyumov Grigoriy

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MATHEMATICAL MODELING OF GEONAVIGATION INFORMATION-MEASUREMENT SYSTEMS WITH THREE-COMPONENT ACCELEROMETRIC SENSORS

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MATHEMATICAL MODELING OF GEONAVIGATION INFORMATION-MEASUREMENT SYSTEMS WITH THREE-COMPONENT ACCELEROMETRIC SENSORS

Section: INFORMATIONAL MEASURING SYSTEMS

Proceedings: CAD/EDA, MODELING AND SIMULATION IN MODERN ELECTRONICS. PART 1

UDK 62 Инженерное дело. Техника в целом. Транспорт GRNTI 50.51 Автоматизация проектирования BBK 302 Проектирование TBK 5136 Системы автоматического проектирования

Milovzorov Dmitriy ¹

Butorin Akim ²

Chelyumov Grigoriy ³

Author and publication information

Authors:

1. Ufimskiy gosudarstvennyy aviacionnyy tehnicheskiy universitet ( docent)
employee
Ufa, Russian Federation

2. Ufimskiy gosudarstvennyy aviacionnyy tehnicheskiy universitet
student
Ufa, Russian Federation

3. Ufimskiy gosudarstvennyy aviacionnyy tehnicheskiy universitet
student
Ufa, Russian Federation

Type:

Сonference article

DOI:

https://doi.org/10.30987/conferencearticle_5c19e6057e8241.73780926

Published:

22.12.2018

Subject area:

UDK 62 Инженерное дело. Техника в целом. Транспорт
GRNTI 50.51 Автоматизация проектирования
BBK 302 Проектирование
TBK 5136 Системы автоматического проектирования

Language:

Russian

Keywords:

geo-navigation information-measuring system, three-component accelerometer transducer, matrix method, quaternion method

Abstract and keywords

Abstract (English):
The basic concepts of the spatial orientation theory applicable to geo-navigation problems are presented, basic mathematical models of geo-navigation information-measuring systems with three-component accelerometric sensors are developed using the methods of matrices and quaternions.

Keywords:
geo-navigation information-measuring system, three-component accelerometer transducer, matrix method, quaternion method

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References

1. Ishlinskiy, A.Yu. Orientaciya, giroskopy i inercial'naya navigaciya / A. Yu. Ishlinskiy. – M.: Nauka, 1976. – 670 s.

2. Branec, V. N. Primenenie kvaternionov v zadachah orientacii tverdogo tela / V. N. Branec, I. P. Shmyglevskiy. – M.: Nauka, 1986. – 320 s.

3. Milovzorov, D.G. Concept of Information Signals Reforming for the Tilt Measurement Systems with a Triaxial Accelerometer / D. G. Milovzorov, V. Kh. Yasoveyev // 2017 International Conference on Industrial Engineering, Applications and Manufacturing (ICIEAM). Institute of Electrical and Electronics Engineers, 2017. – S. 1-5.

4. Milovzorov, D.G. Mathematical models of inclination parameter converters based on double-axis accelerometers. / D. G. Milovzorov, V. Kh. Yasoveyev // Optoelectronics, Instrumentation and Data Processing.– 2017. –T. 53.– № 1. – S. 9-14.

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