Novel calibration method for accelerometers of in-field use
-
摘要: 为解决加速度计性能参数时变性的问题,提出了无依托状态下加速度计标定方法.在无需借助转台等传统标定设备、无需拆卸惯性元件的条件下,充分利用惯导系统(INS,Inertial Navigation System)自身资源,以静基座初始对准获得的准确姿态信息为前提,利用当地重力g作为标定基准,考虑到误差模型非线性的特点,引入非线性寻优策略辨识零位偏差,将误差模型蜕变为线性后,运用线性最小二乘方法辨识安装误差矩阵和刻度因数误差,从而实现加速度计关键参数标定.数值仿真结果显示:经过标定后加速度计测量误差可减小20倍,说明在无依托状态下具有工程实用价值.Abstract: To solve the problem that parameters of accelerometers varied with time, a calibration method for accelerometers of in-field use was proposed. Resources in inertial navigation system(INS) was used rather than traditional calibration equipment, such as a precise turntable in this method.There was no need to unload INS from carrier in the calibration. The initial alignment obtained accurate gesture information and the Earth-s gravity was used as calibration standard. Non-linear optimization strategy was introduced to identify the zero bias,considering the non-linear property of the error model.Then the zero bias was used by the non-linear error model to transfer itself to linear .At last the linear least-squares method was used to identify the tri-axial non-orthogonal error and the scale factor error. The calibration key parameters would be achieved in this way. Simulation shows that measurement error is reduced by 20 times after the accelerometer was calibrated. Therefore the calibration precision indicates that this novel method is practical in-field use.
-
Key words:
- accelerometers /
- calibration /
- non-linear least squares /
- initial alignment
-
[1] 梅硕基.惯性仪器测试与数据分析[M].西安:西北工业大学出版社,1991:49-50 Mei Shuoji.Inertial instrument test and data analysis[M].Xi-an:Northwestern Polytechnical University Press,1991:49-50(in Chinese) [2] Hao Yanling,Liu Zhiping.Analysis and compensation on static error of accelerometer in GFSINS //Liu Shaojun.2009 International Conference on Measuring Technology and Mechatronics Automation.Hunan:IEEE,2009:429-432 [3] Yun Cho Seong,Gook Park Chan.A calibration technique for a redundant IMU containing low-grade in Ertial sensors[J].ETRI Journal,2005,27(4):418-425 [4] 刘百奇,房建成.光纤陀螺IMU的六位置旋转现场标定新方法[J].光电工程,2008,53(1):60-65 Liu Baiqi,Fang Jiancheng.Novel field calibration through rotation in six-position for FOG-IMU[J].Opto-Electronic Engineering,2008,53(1):60-65(in Chinese) [5] Morrow R B,Heckman D W.High precision IFOG insertion into the strategic submarine navigation system //Palm Prings.IEEE Position Location and Navigation Symposium.USA:IEEE,1998:332-338 [6] 肖正林,钱培贤.惯导平台加速度计安装误差自标定方法研究[J].箭弹与制导学报,2005,25(4):759-762 Xiao Zhenglin,Qian Peixian.Research on auto calibration method for accelerometers-misalignments of inertial navigation platform [J].Journal of Projectiles,Rockets,Missiles and Guidance,2005,25(4):759-762(in Chinese) [7] Fong W T,Ong S K,Nee A Y C.Methods for in-field user calibration of an inertial measurement unit without external equipment[J].Measurement Science and Technology,2008,19(8):1-11 [8] 尚捷,顾启泰.捷联惯导现场最优标定方法研究[J].中国惯性技术学报,2005,13(4):18-21 Shang Jie,Gu Qitai.Field optimal calibration for strapdown inertial navigation[J].Journal of Inertial Technology of China,2005,13(4):18-21(in Chinese) [9] 王新龙,申功勋.惯导系统可观性的全面分析研究[J] .航天控制,2002(3):14-19 Wang Xinlong,Shen Gongxun.Observability’s comprehensive analysis of inertial navigation system[J].Aerospace Control,2002(3):14-19(in Chinese) [10] 席少霖.非线性最优化方法[M].北京:高等教育出版社,1992:187-195 Xi Shaolin.Nonlinear optimization method[M].Beijing:Higher Education Press,1992:187-195(in Chinese) -
点击查看大图
计量
- 文章访问数: 3572
- HTML全文浏览量: 303
- PDF下载量: 943
- 被引次数: 0
下载:
