Author(s)

Xiaoming Yang, Yanchun Wang

School of Geophysics and Information Technology, China University of Geosciences, Beijing, China.

The technique of ocean bottom cable (OBC) dual-sensor acquisition is an effective method to suppress the ghost wave and the reverberation at the receiver. With the advent of this technique, the processing method has become the key to the effective use of the OBC dual-sensor data. This paper has developed a new set of processing workflow based on the principle of combining the hydrophone and geophone data. This new process was applied to the OBC data acquired in Bohai area. The actual processing results show that the ghost and the reverberation are attenuated effectively. The frequency energy of the first notch point of the hydrophone data increased from −22 dB to −13 dB, and the frequency energy of the first notch point of the geophone data increased from −18 dB to −10 dB. The spectral characteristics of the dual-sensor data are more reasonable. The frequency spectrum is broadened and richer, and the resolution of the stack profile is improved greatly.

Ocean Bottom Cable (OBC), Ghost, Frequency Spectrum Notch, Reverberation, Sea Bottom Reflection Coefficient, Summing

Yang, X. and Wang, Y. (2019) A Processing Workflow for Ocean Bottom Cable Dual-Sensor Acquisition Data: A Case of 3D Seismic Data in Bohai Bay. Open Journal of Geology, 9, 67-74. doi: 10.4236/ojg.2019.91006.