Design and Implementation of a 9-Axis Inertial Measurement Unit

被引:0
|
作者
Lin, Pei-Chun [1 ]
Ho, Chi-Wei [1 ]
机构
[1] Natl Taiwan Univ, Dept Mech Engn, Taipei 10764, Taiwan
来源
ICRA: 2009 IEEE INTERNATIONAL CONFERENCE ON ROBOTICS AND AUTOMATION, VOLS 1-7 | 2009年
关键词
LINEAR ACCELEROMETERS; ACCELERATION;
D O I
暂无
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
We report on a 9-axis inertial measurement unit (IMU) which utilizes 3-axis angular velocity measurements from rate gyros and 6-axis linear acceleration measurements from three 2-axis accelerometers. This system is capable of deriving linear acceleration, angular acceleration and angular velocity via simple matrix operations, and it also releases the requirement of accelerometer installation at the center of mass as in the traditional IMU. An optimal configuration of the system is proposed based on the analysis of rigid body dynamics and matrix theory. We performed error analyses, including position, orientation, and sensor noise, and we also report the results of experimental evaluation. We believe the analysis presented in this paper would benefit the practical design of IMUs in the future.
引用
收藏
页码:2314 / 2319
页数:6
相关论文
共 50 条
  • [31] Design and Implementation of High Precision Temperature Measurement Unit
    Zeng, Xianzhen
    Yu, Weiyu
    Zhang, Zhijian
    Liu, Hancheng
    3RD INTERNATIONAL CONFERENCE ON ENERGY EQUIPMENT SCIENCE AND ENGINEERING (ICEESE 2017), 2018, 128
  • [32] Design and Implementation of Phasor Measurement Unit with IoT Technology
    Gallano, J. C. D. C.
    Malvas, V. J. D.
    Quirona, J. L. F.
    Soriano, R. C. S.
    Pacis, M. C.
    Cruz, F. R. G.
    2020 IEEE 12TH INTERNATIONAL CONFERENCE ON HUMANOID, NANOTECHNOLOGY, INFORMATION TECHNOLOGY, COMMUNICATION AND CONTROL, ENVIRONMENT, AND MANAGEMENT (HNICEM), 2020,
  • [33] Design and implementation of the control unit for DIC measurement system
    Men Yabin
    Wang Zhaohui
    Wang Xinpeng
    Lerner, Steve
    PROCEEDINGS OF 2019 14TH IEEE INTERNATIONAL CONFERENCE ON ELECTRONIC MEASUREMENT & INSTRUMENTS (ICEMI), 2019, : 1149 - 1156
  • [34] Improved precision of strapdown inertial navigation system brought by dual-axis continuous rotation of inertial measurement unit
    Li, An
    Qin, Fang-jun
    Chang, Guo-bin
    Li, Hong-wu
    2010 2ND INTERNATIONAL ASIA CONFERENCE ON INFORMATICS IN CONTROL, AUTOMATION AND ROBOTICS (CAR 2010), VOL 1, 2010, : 284 - 287
  • [35] Design and Implementation of Inertial Measurement Information Acquisition System Based on XML
    Yu, Pei
    Wang, Ting
    Zhang, Jinyun
    Li, Jing
    3RD INTERNATIONAL CONFERENCE ON AUTOMATION, CONTROL AND ROBOTICS ENGINEERING (CACRE 2018), 2018, 428
  • [36] Constrained Trajectory Generation and Control for a 9-Axis Micromachining Center With Four Redundant Axes
    Yuen, Alexander
    Altintas, Yusuf
    IEEE-ASME TRANSACTIONS ON MECHATRONICS, 2018, 23 (01) : 402 - 412
  • [37] Nine-axis inertial measurement unit output discriminates activities of varying intensity in the dog
    Vitt, Molly A.
    Rendahl, Aaron
    Pracht, Sara E.
    Knotek, Brooke M.
    Lascelles, B. Duncan X.
    Gordon-Evans, Wanda
    Conzemius, Michael G.
    AMERICAN JOURNAL OF VETERINARY RESEARCH, 2023, 84 (03) : 8 - 8
  • [38] Research on the nongyroscopic inertial measurement unit
    Gao, L
    Zhai, CG
    Zhang, WD
    ISTM/2003: 5TH INTERNATIONAL SYMPOSIUM ON TEST AND MEASUREMENT, VOLS 1-6, CONFERENCE PROCEEDINGS, 2003, : 18 - 20
  • [39] Balance Evaluation by Inertial Measurement Unit
    Codina, Marc
    Navarrete, Manuel
    Castells-Rufas, David
    Carrabina, Jordi
    PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON UBIQUITOUS COMPUTING & AMBIENT INTELLIGENCE (UCAMI 2022), 2023, 594 : 71 - 76
  • [40] ERROR ANALYSIS OF THE INERTIAL MEASUREMENT UNIT
    Adamcik, Frantisek
    AVIATION, 2011, 15 (01) : 5 - 10
12345