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Real-Time DAS VSP Acquisition and Processing on Single- and Multi-Mode Fibers

Andreas Ellmauthaler, Michel LeBlanc, Jeff Bush, Mark E. Willis, John L. Maida, Glenn A. Wilson

2020IEEE Sensors Journal26 citationsDOI

Abstract

Distributed acoustic sensing (DAS) is a rapidly evolving fiber-optic sensing technology that converts any standard fiber-optic cable into a distributed sensor capable of measuring acoustic events every meter over large (100 km+) distances. We describe a conveyance-agnostic DAS system for vertical seismic profiling (VSP) that has the capability to sense either single- or multi-mode sensing fibers, and encode all auxiliary seismic source signals directly onto the optical data stream using a series of piezo-electric fiber stretchers in-line with the sensing fiber. The DAS system can operate with latency-free synchronization via wireless telemetry between the seismic source controller and the DAS unit in either master or slave modes. Similar to geophone-based VSP data acquisition systems, the time-break signal is used to trigger data acquisition to ensure precise time synchronization at sub-millisecond accuracy between the DAS system and the seismic source. The system enables effective data management and the real-time generation of 1 millisecond sampled seismic and navigation data that conforms to the industry-standard seismic data formats, thus eliminating any latency between acquisition and field data deliverables.

Topics & Concepts

GeophoneData acquisitionDistributed acoustic sensingMillisecondOptical fiberComputer scienceVertical seismic profileReal-time computingSynchronization (alternating current)Fiber optic sensorComputer hardwareElectronic engineeringEngineeringGeologyTelecommunicationsChannel (broadcasting)SeismologyPhysicsOperating systemAstronomySeismic Waves and AnalysisAdvanced Fiber Optic SensorsGeophysics and Sensor Technology
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