Detection of Waves and Sea-Surface Vessels via Time Domain Only Analysis of Underwater DAS Data
Publication Date: 5/25/2025
Event: The International Conference on Optical Fiber Sensors OFS-29
Reference: (13639):136392N-1-136392N-4, 2025
Authors: Sarper Ozharar, NEC Laboratories America, Inc.; Yue Tian, NEC Laboratories America, Inc.; Yangmin Ding, NEC Laboratories America, Inc.; Zhuocheng Jiang, NEC Laboratories America, Inc.; Yao Wang, Stevens Institute of Technology; Yi Bao, Stevens Institute of Technology; Ting Wang, NEC Laboratories America, Inc.
Abstract: A 100-meter-long fiber optic cable was installed at the bottom of a water tank at the Davidson Laboratory, together with a hydrophone for reference. The water tank is approximately 2.5 meters deep and 95 meters long; the tank also employs a 6-paddle wavemaker, which can generate programmable surface waves. A 155-cm-long model boat weighing 6.5 kilograms was automatically dragged on the surface of the tank via an electrical towing mechanism. The movement of the model boat along the fiber cable and over the hydrophone was recorded using a commercially available NEC Distributed Acoustic Sensing (DAS) system and simultaneously by a hydrophone. The experiments were repeated with and without the artificially generated surface waves. The data obtained from the hydrophone and the DAS system are presented and compared. The results show the compatibility between the DAS data and the hydrophone data. More importantly, our results show that it is possible to measure the surface waves and to detect a surface vessel approaching the sensor by only using the time domain analysis in terms of detected total energy over time.
