• Title/Summary/Keyword: IMU biases

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Observability Analysis of INS with a GPS Multi-Antenna System

  • Sinpyo Hong;Lee, Man-Hyung;Jose A. Rios;Jason L. Speyer
    • Journal of Mechanical Science and Technology
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    • v.16 no.11
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    • pp.1367-1378
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    • 2002
  • This paper investigates observability properties of strapdown INS aided by a GPS antenna array. The motivation to consider a GPS antenna array is that the lever-arms between the GPS antennas and IMU play an important role in the estimation of vehicle attitude and biases of IMU. It is shown that time-invariant INS error models are observable with measurements from at least three GPS antennas. It is also shown that time-varying error models are instantaneously observable with measurements from three antennas. Numerical simulation results are given to show the effectiveness of multiple GPS antennas on estimating vehicle attitude and biases of IMU when IMU has considerable magnitude of biases.

An Analysis of the Heading Bias Effects in PNS using IMUs Attached to Shoes (신발에 IMU 를 장착한 PNS 에서 방위각 편차의 영향 분석)

  • Kim, SangSik;Yi, YearnGui;Park, Chansik
    • Journal of Institute of Control, Robotics and Systems
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    • v.19 no.11
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    • pp.1053-1059
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    • 2013
  • Heading bias effects in PNS using IMUs attached to shoes are analyzed in this paper. The navigation algorithms of a single foot PNS where one IMU is attached to a foot and dual foot PNSs where two IMUs are attached to each foot are derived. Two navigation algorithms are proposed for the dual foot PNS: 1) the positions from the independent right and left foot PNSs are averaged to provide the final position, 2) the right and left foot PNSs are correlated and it provides positions of each foot. Furthermore, it is proven that two methods are equal. Using the derived navigation algorithms the effect of heading bias caused by a misalignment of the moving direction and IMU is analyzed. The analysis explains the position error of a single foot PNS is diverged while the heading bias is effectively compensated in dual foot PNSs because of the symmetry of heading biases. The experimental results confirm the analysis.

A Seamless Positioning System using GPS/INS/Barometer/Compass (GPS/INS/기압계/방위계를 이용한 연속 측위시스템)

  • Kwon, Jay-Hyoun;Grejner-Brzezinska, D.A.;Jwa, Yoon-Seok
    • Journal of Korean Society for Geospatial Information Science
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    • v.14 no.3 s.37
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    • pp.47-53
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    • 2006
  • In this contribution, an integration of seamless navigation system for the pedestrian is introduced. To overcome the GPS outages in various situations, multi-sensor of GPS, INS, electronic barometer and compass are considered in one Extented Kalman filter. Especially, the integrated system is designed for low-cost for the practical applications. Therefore, a MEMS IMU is considered, and the low quality of the heading is compensated by the electronic compass. In addition, only the pseudoranges from GPS measurements are considered for possible real-time application so that the degraded height is also controlled by a barometer. The mathematical models for each sensor with systematic errors such as biases, scale factors are described in detail and the results are presented in terms of a covariance analysis as well as the position and attitude errors compared to the high-grade GPS/INS combined solutions. The real application scenario of GPS outage is also investigated to assess the feasible accuracy with respect to the outage period. The description on the current status of the development and future research directions are also stated.

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Reduced Error Model for Integrated Navigation of Unmanned Autonomous Underwater Vehicle (무인자율수중운동체의 보정항법을 위한 축소된 오차 모델)

  • Park, Yong-Gonjong;Kang, Chulwoo;Lee, Dal Ho;Park, Chan Gook
    • Journal of Institute of Control, Robotics and Systems
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    • v.20 no.5
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    • pp.584-591
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    • 2014
  • This paper presents a novel aided navigation method for AUV (Autonomous Underwater Vehicles). The navigation system for AUV includes several sensors such as IMU (Inertial Measurement Unit), DVL (Doppler Velocity Log) and depth sensor. In general, the $13^{th}$ order INS error model, which includes depth error, velocity error, attitude error, and the accelerometer and gyroscope biases as state variables is used with measurements from DVL and depth sensors. However, the model may degrade the estimation performance of the heading state. Therefore, the $11^{th}$ INS error model is proposed. Its validity is verified by using a degree of observability and analyzing steady state error. The performance of the proposed model is shown by the computer simulation. The results show that the performance of the reduced $11^{th}$ order error model is better than that of the conventional $13^{th}$ order error model.