红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2013年
7期
1896-1901
,共6页
梁生%盛新志%娄淑琴%陈京惠%董宏辉
樑生%盛新誌%婁淑琴%陳京惠%董宏輝
량생%성신지%루숙금%진경혜%동굉휘
光纤分布式扰动传感器%Mach-Zehnder干涉仪%Lissajous图形%定位算法%拟合椭圆
光纖分佈式擾動傳感器%Mach-Zehnder榦涉儀%Lissajous圖形%定位算法%擬閤橢圓
광섬분포식우동전감기%Mach-Zehnder간섭의%Lissajous도형%정위산법%의합타원
fiber-optic distributed disturbance sensor%Mach-Zehnder interferometer%lissajous figure%location method%fitting ellipse
研究了一种基于Lissajous图形的光纤分布式扰动传感器定位方法。光纤分布式扰动传感器基于Mach-Zehnder干涉仪,通过两路输出信号的时延得到扰动定位。在两路输出信号的Lissajous图形中构造拟合椭圆,基于实验数据的仿真研究表明:通过椭圆半短轴长可以得到时延,实现定位。对该方法进行了仿真和实验研究,在无需噪声抑制的条件下定位精度较高:在信噪比为-6~7 dB范围,最大定位误差为207 m;多次测量中,最大误差为94 m。研究结论可以为光纤分布式扰动传感器定位方法提供新的技术参考。
研究瞭一種基于Lissajous圖形的光纖分佈式擾動傳感器定位方法。光纖分佈式擾動傳感器基于Mach-Zehnder榦涉儀,通過兩路輸齣信號的時延得到擾動定位。在兩路輸齣信號的Lissajous圖形中構造擬閤橢圓,基于實驗數據的倣真研究錶明:通過橢圓半短軸長可以得到時延,實現定位。對該方法進行瞭倣真和實驗研究,在無需譟聲抑製的條件下定位精度較高:在信譟比為-6~7 dB範圍,最大定位誤差為207 m;多次測量中,最大誤差為94 m。研究結論可以為光纖分佈式擾動傳感器定位方法提供新的技術參攷。
연구료일충기우Lissajous도형적광섬분포식우동전감기정위방법。광섬분포식우동전감기기우Mach-Zehnder간섭의,통과량로수출신호적시연득도우동정위。재량로수출신호적Lissajous도형중구조의합타원,기우실험수거적방진연구표명:통과타원반단축장가이득도시연,실현정위。대해방법진행료방진화실험연구,재무수조성억제적조건하정위정도교고:재신조비위-6~7 dB범위,최대정위오차위207 m;다차측량중,최대오차위94 m。연구결론가이위광섬분포식우동전감기정위방법제공신적기술삼고。
A location method based on the extended Lissajous figure was proposed for fiber-optic distributed disturbance sensor based on Mach-Zehnder interferometer. The disturbance was located by the fiber-optic distributed disturbance sensor due to the time delay between the two signals from clockwise and counter- clockwise Mach-Zehnder interferometer. In the Lissajous figure of the two signals, a fitting ellipse with constant semimajor and azimuths was induced to evaluate the time delay. The relationship between the time delay and semiminor of the ellipse was obtained by linear fitting. Then, the time delay could be calculated by the semiminor of the fitting ellipse. By the simulation with experimental data and experimental test, it is found that the proposed lower location errors can be obtained by the location method than current cross correlation function based method without phase generation carrier technique.