基于方波的相位式激光测距系统的研究
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摘要
激光测距是随着激光技术的出现发展而发展起来的一种精密测量技术,因其良好的精确度特性而广泛的应用在军事和民用领域。
本文介绍了一种基于方波的相位法多频同步测距技术,依据方波的性质,以数学傅立叶变换为基础,通过频谱分析,可以实现对基波和谐波的同步检相,进而计算出待测距离。与传统的相位法测距相比,本方法使用单调制频率实现了多频测距,有效地解决了相位法测距中测程与测量精度之间的矛盾,具有高精度、大量程、大噪声容限的特点,而且简化了硬件设计,降低了成本;其次在数据处理中采用数据加窗函数的方法,提高了方波信号的频谱分辨率,进而提高了测量的精度。
论文阐述了相位式激光测距的原理,分析了各种测相的方法,着重介绍了系统的硬件和软件的组成。硬件部分包括激光发射电路、回波接收电路,高速数据采集电路等。软件方面介绍了基于快速傅立叶变换原理的测相方法,并结合窗函数来提高频谱的分辨率,从而提高了测量的精度。最后介绍了基于Matlab平台的实验数据处理结果,并分析了产生误差的各种原因。
本论文也对系统以后的改进作了一些探讨,以及对研究工作的总结和展望。
The laser ranging is a technology for precision measurement, it is developing along with the development of the laser technology, which is extensively used in the military field and the civil field because of the good accuracy.
This paper introduced a laser ranging system which was based on the square wave. By using FFT and analyzing the spectrum, we implement the phase-detecting synchronously for the first-harmonic and the harmonics, then proceed to calculate the distance. Comparing with the traditional phase-shifted laser range finder, the method could implement the ranging with multifrequency by using single modulated frequency. It could not only solve the contradiction of the range and the precision, but has high degree of accuracy and wide range, simplify the hardware design, and reduce the cost.
This paper introduced the theory of phase distance measurement, analyzed various testing methods and expatiated the hardware and the software for the proposal system. The hardware mainly included the emitting circuit of the laser light, receiving circuit and high speed data acquisition circuit. In the software design, we used the window function to improve the resolution of the spectrum, then improve the precision for measurement. In the end, the paper gave the outline of the processing result of the experiment based on Matlab, and analyzed the factors which caused experiment errors.
At last, the improvement for the system was brought forward, and research was summarized and expected in this paper.
本文介绍了一种基于方波的相位法多频同步测距技术,依据方波的性质,以数学傅立叶变换为基础,通过频谱分析,可以实现对基波和谐波的同步检相,进而计算出待测距离。与传统的相位法测距相比,本方法使用单调制频率实现了多频测距,有效地解决了相位法测距中测程与测量精度之间的矛盾,具有高精度、大量程、大噪声容限的特点,而且简化了硬件设计,降低了成本;其次在数据处理中采用数据加窗函数的方法,提高了方波信号的频谱分辨率,进而提高了测量的精度。
论文阐述了相位式激光测距的原理,分析了各种测相的方法,着重介绍了系统的硬件和软件的组成。硬件部分包括激光发射电路、回波接收电路,高速数据采集电路等。软件方面介绍了基于快速傅立叶变换原理的测相方法,并结合窗函数来提高频谱的分辨率,从而提高了测量的精度。最后介绍了基于Matlab平台的实验数据处理结果,并分析了产生误差的各种原因。
本论文也对系统以后的改进作了一些探讨,以及对研究工作的总结和展望。
The laser ranging is a technology for precision measurement, it is developing along with the development of the laser technology, which is extensively used in the military field and the civil field because of the good accuracy.
This paper introduced a laser ranging system which was based on the square wave. By using FFT and analyzing the spectrum, we implement the phase-detecting synchronously for the first-harmonic and the harmonics, then proceed to calculate the distance. Comparing with the traditional phase-shifted laser range finder, the method could implement the ranging with multifrequency by using single modulated frequency. It could not only solve the contradiction of the range and the precision, but has high degree of accuracy and wide range, simplify the hardware design, and reduce the cost.
This paper introduced the theory of phase distance measurement, analyzed various testing methods and expatiated the hardware and the software for the proposal system. The hardware mainly included the emitting circuit of the laser light, receiving circuit and high speed data acquisition circuit. In the software design, we used the window function to improve the resolution of the spectrum, then improve the precision for measurement. In the end, the paper gave the outline of the processing result of the experiment based on Matlab, and analyzed the factors which caused experiment errors.
At last, the improvement for the system was brought forward, and research was summarized and expected in this paper.
引文
[1] 金国藩,李景镇.激光测量学[汇编][M],北京:科学出版社,1998:64~66.
[2] 安毓英.第五章 激光军用技术[J],激光与红外,2003,33(2):157~158
[3] 金和钟.激光精密测距的发展和应用,激光技术,1991,15(3):180~185
[4] 三浩.激光测距的工业应用,激光与光电子学进展,2001,11:51~53
[5] 中国矿业学院测量教研室.《激光测距仪》,煤炭工业出版社,1981
[6] K.Matt, J Kostamovaara. A high precision time-to-digital converter for pulsed time-to-flight laser radar qapplications[J], IEEE Trans.Instr.and Meas.1998,47(2): 521~536.
[7] 霍玉晶,陈千颂,潘志文.脉冲激光雷达的时间间隔测量综述[J],激光与红外,2003,31(3):136~139
[8] 王勇新,章恩耀,方仲彦,张玉坤.时幅转换技术及其在激光测距系统中的应用[J],光学技术,2001,27(2):132~138
[9] R.Nutt. Digital time intervalometer [J]. Rev.Sci.Instr, 1968, 39 (3): 1342~1345
[10] J.Kalisz, M.Pawlowski, R.Pelka. A multiple-interpolation method for fast and precise time digitizing[J], IEEE Trans.Instr.and Meas, 1986, IM-35:163~169.
[11] T.aichi, Otsuji, A picosecond-accuracy, 700-MHz range, Si-Bipolar time interval counter LSI[J], IEEE J.of Solid-Stata Circuits, 1993, 28(9): 941~947
[12] 陈千颂,杨成伟,潘志文,霍玉晶.激光飞行时间测距关键技术进展[J],激光与红外,2002,32(1):7~10
[13] 赵铭权,赵铭军.相位激光测距技术及其应用[J].电光系统,2001,(3):31~32
[14] 马士忠.测距机,北京,国防工业出版社,1999
[15] Ms Bazin G, Mr Joumet B, A new laser range-finder based on FMCW-like method. IEEE Instrumentation and Measurement Technology Conference 1996:90~93
[16] K.Nakamura, T.Hara, M.Yoshida, et al. Optical frequency domain ranging by a frequency-shifted feedback laser[J]. IEEE J.of Quantu.Elec,2000,36(3):305~316
[17] S F Collins, M M Murphy, K T V Grattan, et al, A simple laser diode ranging scheme using an intensity modulated FMCW approach[J]. Meas. and Tech, 1993, 4: 1437~1439
[18] 孙晓明,马军山,强锡富.半导体激光器自混合干涉绝对测距理论研究[J],仪器仪表学报,1998,19(3):274~278
[19] 孙晓明,马军山,强锡富.半导体激光自混合干涉理论研究[J],中国激光,1998,25(11):1018~1022
[20] 马军山,王向朝,方祖捷,强锡富.激光自混合干涉仪的实验研究[J],中国激光,2001,28(1):29~32
[21] Katuo Seta, Tadanao Ohish, Shoichi Seino. Optical distance measturement using inter-mode beat of laser[J], Jpn.J.Appl.Phys, 1985, 24(10): 1374~1375
[22] T Araki, S Yokoyama, N Suzuki. Simple optical distance meter using an intermode-beat modulation of a He-Ne laser and an electrical-heterodyne technique [J]. Rev.of Sci.Instru. 1994, 65(6): 1883~1888
[23] Katuo Seta, Tadanao O'ishi. Distance meter utilizing the intermode beat of a He-Nelaser[J], App. Opt., 1990, 29 (3): 354~359
[24] R.Balhorn, H.Kunzmann, F.Lebowsky. Frequency stabilization of internal-mirror Helium-Neon lasers[J],Appl.Opt, 1972, 11(4):742~744
[25] I Fujima, Katuo Seta, H Matsumoto, H Yoshida. High-resolution distance meter using optical modulators at 3.5GHz[J], Opt. Eng., 1997, 36(12): 3349~3352
[26] I Fujima, S Iwasaki, Katuo Seta. High-resolution distance meter using optical intensity modulation at 28 GHz[J], Meas. Sci. Teehnol., 1998, 9:1049~1052
[27] 卢葱葱,赵长明,吴克瑛.利用微失调扭转模腔产生双频激光[J],北京理工大学学报,1999,19(3):343~348
[28] K Seta, T Oh'ishi. Distance measurement using a pulse train emitted from a laser diode[J], J. App. Phy ,1987,26 (10): L1690~L1692
[29] 金宁,汪伟,张增耀,黄咏梅.高精度数字检相电路设计[J],中国计量学院学报,2002,13(1):60~63
[30] 孟建.相位相关技术研究[J],系统工程与电子技术,2003,25(2):140~142
[31] 张毅刚,付平,王丽.采用数字相关法测量相位差[J],计量学报,2000,21(3):216~221
[32] 刘灿涛,赵伟,袁俊.基于数字相关原理的相位差测量新方法[J],计量学报,2002
[33] 孙兰芬,陈一巾.线性代数[M].杭州:浙江大学出版社,1994,156~161.
[34] 黄正英,李季,陈结祥,张毅.向量内积法检相在激光测距系统中的应用[J].光电子技术与信息,2002,15(6):31~34.
[35] 丁英丽.相位差的测量方法[J],本溪冶金高等专科学校学报,2002,4(2):20~21
[36] Alan V.oppenhem, Alan S. Willsky, Wtths. Hamid Nawab(著),刘树棠(译).信号与系统[M],西安交通大学出版社,2002
[37] 黄爱苹.数字信号处理[M],浙江大学出版社,1989
[38] 齐国清,贾欣乐.基于DFT相位的正弦波频率和初相的高精度估计方法[J],电子学报,2001,29(9):1164~1167
[39] 谢蕾,李季,陈结祥,戚俊,黄正英.基于FFT的激光测距相位计的实现[J],量子电子学报,2003,20(1):85~88
[40] Ferrero A, Ottoboni R. A new approach to the Fourier analysis of periodic signals for the minimization of the phase errors[J], IEEE Trabsaction on Instrmentation and Measurement, 1991, 40(4): 694~698
[41] 李磊源,施文康.一种高可靠性的相位检测实用算法[J],上海交通大学学报,2002,36(7):987~990
[42] 郑君里,应启珩,杨为理.信号与系统[M],高等教育出版社,2000
[43] 谢明,丁康.离散频谱分析的一种新校正方法[J],重庆大学学报(自然科学版),1995,18(2):47~54
[44] 丁康,罗江凯,谢明.离散频谱时移相位差校正法[J],应用数学和力学,23(7):729~735
[45] P.R.贝文顿(著),仇维礼,徐根兴,赵恩广,陈生忠(译).数据处理和误差分析[M],知识出版社,1986
[2] 安毓英.第五章 激光军用技术[J],激光与红外,2003,33(2):157~158
[3] 金和钟.激光精密测距的发展和应用,激光技术,1991,15(3):180~185
[4] 三浩.激光测距的工业应用,激光与光电子学进展,2001,11:51~53
[5] 中国矿业学院测量教研室.《激光测距仪》,煤炭工业出版社,1981
[6] K.Matt, J Kostamovaara. A high precision time-to-digital converter for pulsed time-to-flight laser radar qapplications[J], IEEE Trans.Instr.and Meas.1998,47(2): 521~536.
[7] 霍玉晶,陈千颂,潘志文.脉冲激光雷达的时间间隔测量综述[J],激光与红外,2003,31(3):136~139
[8] 王勇新,章恩耀,方仲彦,张玉坤.时幅转换技术及其在激光测距系统中的应用[J],光学技术,2001,27(2):132~138
[9] R.Nutt. Digital time intervalometer [J]. Rev.Sci.Instr, 1968, 39 (3): 1342~1345
[10] J.Kalisz, M.Pawlowski, R.Pelka. A multiple-interpolation method for fast and precise time digitizing[J], IEEE Trans.Instr.and Meas, 1986, IM-35:163~169.
[11] T.aichi, Otsuji, A picosecond-accuracy, 700-MHz range, Si-Bipolar time interval counter LSI[J], IEEE J.of Solid-Stata Circuits, 1993, 28(9): 941~947
[12] 陈千颂,杨成伟,潘志文,霍玉晶.激光飞行时间测距关键技术进展[J],激光与红外,2002,32(1):7~10
[13] 赵铭权,赵铭军.相位激光测距技术及其应用[J].电光系统,2001,(3):31~32
[14] 马士忠.测距机,北京,国防工业出版社,1999
[15] Ms Bazin G, Mr Joumet B, A new laser range-finder based on FMCW-like method. IEEE Instrumentation and Measurement Technology Conference 1996:90~93
[16] K.Nakamura, T.Hara, M.Yoshida, et al. Optical frequency domain ranging by a frequency-shifted feedback laser[J]. IEEE J.of Quantu.Elec,2000,36(3):305~316
[17] S F Collins, M M Murphy, K T V Grattan, et al, A simple laser diode ranging scheme using an intensity modulated FMCW approach[J]. Meas. and Tech, 1993, 4: 1437~1439
[18] 孙晓明,马军山,强锡富.半导体激光器自混合干涉绝对测距理论研究[J],仪器仪表学报,1998,19(3):274~278
[19] 孙晓明,马军山,强锡富.半导体激光自混合干涉理论研究[J],中国激光,1998,25(11):1018~1022
[20] 马军山,王向朝,方祖捷,强锡富.激光自混合干涉仪的实验研究[J],中国激光,2001,28(1):29~32
[21] Katuo Seta, Tadanao Ohish, Shoichi Seino. Optical distance measturement using inter-mode beat of laser[J], Jpn.J.Appl.Phys, 1985, 24(10): 1374~1375
[22] T Araki, S Yokoyama, N Suzuki. Simple optical distance meter using an intermode-beat modulation of a He-Ne laser and an electrical-heterodyne technique [J]. Rev.of Sci.Instru. 1994, 65(6): 1883~1888
[23] Katuo Seta, Tadanao O'ishi. Distance meter utilizing the intermode beat of a He-Nelaser[J], App. Opt., 1990, 29 (3): 354~359
[24] R.Balhorn, H.Kunzmann, F.Lebowsky. Frequency stabilization of internal-mirror Helium-Neon lasers[J],Appl.Opt, 1972, 11(4):742~744
[25] I Fujima, Katuo Seta, H Matsumoto, H Yoshida. High-resolution distance meter using optical modulators at 3.5GHz[J], Opt. Eng., 1997, 36(12): 3349~3352
[26] I Fujima, S Iwasaki, Katuo Seta. High-resolution distance meter using optical intensity modulation at 28 GHz[J], Meas. Sci. Teehnol., 1998, 9:1049~1052
[27] 卢葱葱,赵长明,吴克瑛.利用微失调扭转模腔产生双频激光[J],北京理工大学学报,1999,19(3):343~348
[28] K Seta, T Oh'ishi. Distance measurement using a pulse train emitted from a laser diode[J], J. App. Phy ,1987,26 (10): L1690~L1692
[29] 金宁,汪伟,张增耀,黄咏梅.高精度数字检相电路设计[J],中国计量学院学报,2002,13(1):60~63
[30] 孟建.相位相关技术研究[J],系统工程与电子技术,2003,25(2):140~142
[31] 张毅刚,付平,王丽.采用数字相关法测量相位差[J],计量学报,2000,21(3):216~221
[32] 刘灿涛,赵伟,袁俊.基于数字相关原理的相位差测量新方法[J],计量学报,2002
[33] 孙兰芬,陈一巾.线性代数[M].杭州:浙江大学出版社,1994,156~161.
[34] 黄正英,李季,陈结祥,张毅.向量内积法检相在激光测距系统中的应用[J].光电子技术与信息,2002,15(6):31~34.
[35] 丁英丽.相位差的测量方法[J],本溪冶金高等专科学校学报,2002,4(2):20~21
[36] Alan V.oppenhem, Alan S. Willsky, Wtths. Hamid Nawab(著),刘树棠(译).信号与系统[M],西安交通大学出版社,2002
[37] 黄爱苹.数字信号处理[M],浙江大学出版社,1989
[38] 齐国清,贾欣乐.基于DFT相位的正弦波频率和初相的高精度估计方法[J],电子学报,2001,29(9):1164~1167
[39] 谢蕾,李季,陈结祥,戚俊,黄正英.基于FFT的激光测距相位计的实现[J],量子电子学报,2003,20(1):85~88
[40] Ferrero A, Ottoboni R. A new approach to the Fourier analysis of periodic signals for the minimization of the phase errors[J], IEEE Trabsaction on Instrmentation and Measurement, 1991, 40(4): 694~698
[41] 李磊源,施文康.一种高可靠性的相位检测实用算法[J],上海交通大学学报,2002,36(7):987~990
[42] 郑君里,应启珩,杨为理.信号与系统[M],高等教育出版社,2000
[43] 谢明,丁康.离散频谱分析的一种新校正方法[J],重庆大学学报(自然科学版),1995,18(2):47~54
[44] 丁康,罗江凯,谢明.离散频谱时移相位差校正法[J],应用数学和力学,23(7):729~735
[45] P.R.贝文顿(著),仇维礼,徐根兴,赵恩广,陈生忠(译).数据处理和误差分析[M],知识出版社,1986
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