三轴斜置一体化光纤陀螺测试技术研究
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摘要
三轴斜置一体化光纤陀螺性能的测试技术是实现高精度惯性导航的重要组成部分。原有三轴斜置一体化光纤陀螺标度因数和分辨率的标定方法依靠工装在理论测试模型的基础上逐一对各陀螺进行测试,测试时间长,对工装精度要求严格。针对上述问题,提出了通过测算安装误差和解算旋转矩阵来标定其标度因数和分辨率的方法。试验证明:方法可以快速、准确地一次性对三轴斜置一体化光纤陀螺中所有陀螺的标度因数和分辨率进行测试,解决了原有测试技术操作复杂、耗时、对工装精度要求严格的问题。
Characteristic testing technology of three-axis diagonal integration of fiber-optic gyro is an important part of high precision intertial navigation. The original calibration method of the scale fator and resolution of threeaxis diagonal integration of fiber-optic gyro depends on the tooling and tests the gyro one by one based on the theoretical testing model. The testing time of original method is long and the method is strict in precision of tooling. Aiming at the above problems,put forward a new method that calibrates the scale factor and resolution by measuring installation error and calculating rotation matirx. The experiment proves that the new method can calibrates the scale factor and resolution of all gyro of three-axis diagonal integration of fiber-optic gyro quickly and accurately. The new method has solved the problems of original testing technology for three-axis diagonal integration of fiber-optic gyro being complicated,time-consuming,strict in clamping.
Characteristic testing technology of three-axis diagonal integration of fiber-optic gyro is an important part of high precision intertial navigation. The original calibration method of the scale fator and resolution of threeaxis diagonal integration of fiber-optic gyro depends on the tooling and tests the gyro one by one based on the theoretical testing model. The testing time of original method is long and the method is strict in precision of tooling. Aiming at the above problems,put forward a new method that calibrates the scale factor and resolution by measuring installation error and calculating rotation matirx. The experiment proves that the new method can calibrates the scale factor and resolution of all gyro of three-axis diagonal integration of fiber-optic gyro quickly and accurately. The new method has solved the problems of original testing technology for three-axis diagonal integration of fiber-optic gyro being complicated,time-consuming,strict in clamping.
引文
[1]Li X Y,He Z H,Zhang C H,et a1.Research on modulation stability and compensation method of Y waveguide in fiber-optic gyroscope[C]∥The Ninth International Conference on Electronic Measurement&Instruments,2009:316-321.
[2]刘铁根,王双,江俊峰,等.航空航天光纤传感技术研究进展[J].仪器仪表学报,2014,35(8):1681-1692.
[3]Celikel O.Construction and characterization of interferometric fiber-optic gyroscope(IFOG)with erbium doped fiber amplifier(EDFA)[J].Optical and Quantum Electronics,2007,39(2):147-156.
[4]魏莉莉,黄军,傅长松,等.带斜置元件的光纤陀螺捷联惯组标定方法[J].中国惯性技术学报,2015,23(1):14-19.
[5]孙平,肖凯,刘昆.光纤陀螺组件标定测试系统设计[J].传感器与微系统,2008,27(5):97-98.
[6]Li Xuyou,He Zhou,Zhang Chen,et al.Research on modulation stability and compensation method of Y waveguide in fiber-optic gyroscope[C]∥The Ninth International Conference on Electronic Measurement&Instruments,2009:316-321.
[7]Zhao Dunhui,Chen Jiabin,Han Yongqiang,et al.Temperature compensation of FOG scale factor based on CPSO-BPNN[C]∥Control and Decision Conference(CCDC),2010:2898-2901.
[8]国防科学技术工业委员会.GJB2426A—2004.光纤陀螺仪测试方法[S].2004.
[9]那永林,李丽坤,吴衍记,等.光纤陀螺标度因数的测试误差分析[J].中国惯性技术学报,2012,20(4):474-476.
[10]楼奇哲.一种光纤陀螺分辨率评测方法:中国,CN102519487A[P].2012—06—27.
[2]刘铁根,王双,江俊峰,等.航空航天光纤传感技术研究进展[J].仪器仪表学报,2014,35(8):1681-1692.
[3]Celikel O.Construction and characterization of interferometric fiber-optic gyroscope(IFOG)with erbium doped fiber amplifier(EDFA)[J].Optical and Quantum Electronics,2007,39(2):147-156.
[4]魏莉莉,黄军,傅长松,等.带斜置元件的光纤陀螺捷联惯组标定方法[J].中国惯性技术学报,2015,23(1):14-19.
[5]孙平,肖凯,刘昆.光纤陀螺组件标定测试系统设计[J].传感器与微系统,2008,27(5):97-98.
[6]Li Xuyou,He Zhou,Zhang Chen,et al.Research on modulation stability and compensation method of Y waveguide in fiber-optic gyroscope[C]∥The Ninth International Conference on Electronic Measurement&Instruments,2009:316-321.
[7]Zhao Dunhui,Chen Jiabin,Han Yongqiang,et al.Temperature compensation of FOG scale factor based on CPSO-BPNN[C]∥Control and Decision Conference(CCDC),2010:2898-2901.
[8]国防科学技术工业委员会.GJB2426A—2004.光纤陀螺仪测试方法[S].2004.
[9]那永林,李丽坤,吴衍记,等.光纤陀螺标度因数的测试误差分析[J].中国惯性技术学报,2012,20(4):474-476.
[10]楼奇哲.一种光纤陀螺分辨率评测方法:中国,CN102519487A[P].2012—06—27.