Distributed optical fiber sensing in coherent 0-OTDR with a broadband chirped-pulse conversion algorithm

We propose a broadband chirped-pulse conversion algorithm (BCPCA) to convert a finite-step scanning probe pulse into an equivalent broadband chirped probe pulse by convolving a chirp factor on the received signal in coherent phase-sensitive optical time domain reflectometry (0-OTDR). Combined with Rayleigh interference pattern (RIP) demodulation in chirped-pulse 0-OTDR (CP-0OTDR), environmental perturbations, such as strain and temperature along the sensing fiber, can be quantitatively measured. The equivalent broadband chirped pulse is generated by digital processing, and its bandwidth can be increased by changing the composition of the scanning pulse. Thus, the measurable perturbation range of the system can be expanded. As a proof-of-concept experiment, a high-performance distributed strain measurement was realized on a 10 km fiber, the frequency response was 5 kHz, which is only limited by the fiber length, and the strain resolution was 8.04 p epsilon/ Hz. The proposed method of generating equivalent broadband chirped pulse through the digital domain can be used as a supplement to CP-0OTDR.