论文信息 - Distributed dynamic strain measurement using a correlation-based Brillouin sensing system

Distributed dynamic strain measurement using a correlation-based Brillouin sensing system

Conventional fiber Brillouin-based strain sensors are capable of distributed sensing, making them advantageous over fiber Bragg grating-based sensors for structural monitoring applications. However, Brillouin sensors have low spatial resolution and are inappropriate for dynamic strain measurements as they have large measurement times of several minutes. We present a correlation-based continuous-wave technique for high spatial resolution and distributed dynamic strain measurements using stimulated Brillouin scattering. Using our technique, we have successfully measured dynamic strain from a 5-cm vibrating section, at a sampling rate of 8.8 Hz with a strain accuracy of about /spl plusmn/38 /spl mu//spl epsiv/.

K. Hotate | K. Hotate | S.S.L. Ong | S. Ong

[1] Luc Thevenaz,et al. Truly distributed strain and temperature sensing using embedded optical fibers , 1998, Smart Structures.

[2] Kazuo Hotate,et al. A Correlation-Based Continuous-Wave technique for measuring distributed dynamic strain along an optical fiber using Brillouin scattering , 2002 .

[3] Eric Udd,et al. Long-gage fiber optic Bragg grating strain sensors to monitor civil structures , 2001, SPIE Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring.

[4] Kazuo Hotate,et al. Correlation-Based Continuous-Wave Technique for Optical Fiber Distributed Strain Measurement Using Brillouin Scattering with cm-Order Spatial Resolution--Applications to Smart Materials-- , 2001 .

[5] Anthony W. Brown,et al. Tensile and compressive strain measurement in the lab and field with the distributed Brillouin scattering sensor , 2001 .

[6] H. Ohno,et al. Industrial Applications of the BOTDR Optical Fiber Strain Sensor , 2001 .

[7] M Tateda,et al. Launched pulse-shape dependence of the power spectrum of the spontaneous brillouin backscattered light in an optical fiber. , 2000, Applied optics.

[8] O. Ogawa,et al. Technique for measuring the dynamic strain on an optical fiber based on Brillouin ring amplification , 1999 .