September 1, 2011
Journal Article

Design and implementation of an underwater sound recording device

Abstract

To monitor the underwater sound and pressure waves generated by activities such as underwater blasting and pile driving, an autonomous system used to record underwater acoustic signals was designed. The device designed allows two hydrophones or other dynamic pressure sensors to be connected, filters out high frequency noise, has a gain that can be independently set for each sensor, and allows two hours of data to be collected. Two versions of the USR were created; one is submersible to a maximum depth of 300 m, and the other, although watertight, is not intended to be fully submersed. Tests were performed in the laboratory using a data acquisition system to send single-frequency sinusoidal voltages directly to the each component. These tests verified that the device performs as well as larger commercially available data acquisition systems, which are not suited for field use. A prototype of the device was used in a case study to investigate the effect of underwater rock blasting on juvenile Chinook salmon and rainbow trout. The case study demonstrated that the device was able to tolerate being operated in harsh environments, making it a valuable tool for collecting field measurements.

Revised: September 19, 2012 | Published: September 1, 2011

Citation

Martinez J.J., J.R. Myers, T.J. Carlson, Z. Deng, J.S. Rohrer, K.A. Caviggia, and C.M. Woodley, et al. 2011. Design and implementation of an underwater sound recording device. Sensors 11, no. 9:8519-8535. PNNL-SA-80867. doi:10.3390/s110908519