eprintid: 61 rev_number: 8 eprint_status: archive userid: 4 dir: disk0/00/00/00/61 datestamp: 2015-09-02 14:18:30 lastmod: 2015-09-02 14:18:30 status_changed: 2015-09-02 14:18:30 type: article metadata_visibility: show vesselnoise_type: study study_type: full_scale study_source_level_calc: SGST study_date: 2004-09 study_classification: OPEN study_location: Gulf of Mexico: 29° 45' N / 87° 05 W (Lon/Lat) study_bk_aspect: BEAM study_hydrophones: 3 study_hydrophone_depths: 27 study_hydrophone_depths: 63 study_hydrophone_depths: 100 study_array_setup: DFVs study_min_sys_frequency: 10 study_max_sys_frequency: 50000 study_calibration: FFRV study_calibration_regularity: BT study_min_water: 0 study_max_water: 0 study_min_wind: 3 study_max_wind: 4 study_min_wave: 0 study_max_wave: 1 creators_name: Bahtiarian, Michael creators_name: Fischer, Raymond corp_creators: Institute of Noise Control Engineering title: Underwater radiated noise of the NOAA ship Oscar Dyson date: 2006-05-20 citation: Study 61: Full scale. Bahtiarian, M (2004) Institute of Noise Control Engineering