logging in or signing up Thode Techy_Guy Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 48 Category: News & Reports.. License: All Rights Reserved Like it (0) Dislike it (0) Added: September 17, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Sperm whale seismic study in Gulf of Mexico-acoustics focus: Sperm whale seismic study in Gulf of Mexico-acoustics focus General background My role: 3D tracking tagged/untagged animals—working a few months at a time Single array localization-2000 Tag/array integration-2001 Dual-array localization-2002-? Upcoming plans Aaron Thode, Marine Physical Lab, SIO, UCSD Marine Fisheries Service Background-SWAMP cruises 2000-2001: Background-SWAMP cruises 2000-2001 Sponsors Minerals Management Service International Association of Geophysical Contractors Marine Fisheries, SE, 2000-2001 Focus: effect of seismic exploration on sperm whales Endangered species Acoustically active 'Resident' populations Mississippi Canyon De Soto photo: Keith Mullin, SE Fisheries Service Present SWSS study centers on two types of tags: Present SWSS study centers on two types of tags Bruce Mate’s satellite tag (STAG) Long duration deployments—long-term habitat shift? Over 15 animals tagged, mostly on one day WHOI digital recording tag (DTAG) Also pressure, orientation, acceleration High-resolution behavioral responses, energy studies, 3D pseudeotracks Visual, biopsy, acoustic component Nineteen animals tagged in 2002, three simultaneously under controlled seismic exposure, many more under uncontrolled exposures. Gulf of Mexico an acoustically unfavorable propagation environment: Gulf of Mexico an acoustically unfavorable propagation environment Measured and computed detection ranges predict 3-10km, depending on source depth: Measured and computed detection ranges predict 3-10km, depending on source depth Three different towed array systems 30-100m depth, give ~6km range Source: MATLAB KRAKEN (should also Be repeated With Bellhop) Bottom-mounted sensors have similar predicted ranges: Bottom-mounted sensors have similar predicted ranges Stennis Space Center (George Ioup) has placed bottom-mounted sensors in general vicinity of SWSS. Some coordination, little overlap so far. To date passive acoustic data collection program uses towed arrays with few elements->close range work: To date passive acoustic data collection program uses towed arrays with few elements-andgt;close range work Outgrowth of Jay Barlow work, SWFSC. Also arrays from Ecologic, WHOI My focus has been tracking untagged animals, under various conditions: My focus has been tracking untagged animals, under various conditions Goal: statistically significant samples of low-resolution dive profiles under tagging/seismic conditions Complements high-resolution low volume tagging runs. Three branches: Single array localization-2000 Tag/array integration-2001 Dual-array localization-2002-? SWSS acoustic work involves close follows at slow speeds: SWSS acoustic work involves close follows at slow speeds NOAA ship Gordon Gunther 0.5-1.5 kts • Overnight tracking allowed biopsy, tagging in morning • July 3 typical-slow tow through middle of traveling pod • Silty/muddy flat bottom, depth measured with fathometer • Pod composition assumed to be females and juveniles • TDR was NOT attached during this particular sequence 930 m Slide10: tds tdb tdt Bearing 1 Bearing 2 R q zw za a Slide11: Example from one dive: Good depth resolution from 100 m depth Range uncertainty increases with animal depth Tracking ends when bottom returns vanish Ray refraction may be neglected for ranges less than 1 km: Ray refraction may be neglected for ranges less than 1 km True range (m) Slide13: During first stage of dive cycle inter-click interval is closely related to two-way travel time from whale to bottom. During second stage bottom bounces vanish and timing becomes irregular. Why so many clicks related to bottom? (New Zealand counterexample) Some work has been performed on merging tag/array data: Some work has been performed on merging tag/array data Simultaneous recordings on tag/array corrects pseudotrack. Acoustics does not have control of ship during most tagging operations, with interesting results. Time (sec) Array bearing (deg) The inter-click interval (ICI) used to identify tagged whale out of 7-13 other animals: The inter-click interval (ICI) used to identify tagged whale out of 7-13 other animals Using surface reflections only gives three different time-of-arrivals, with two arrays: Using surface reflections only gives three different time-of-arrivals, with two arrays Ishmael display: David Mellinger Two arrays can eliminate need for bottom reflection, if array depths measured: Two arrays can eliminate need for bottom reflection, if array depths measured Restrictions: Array depths known (difficult!) Depths andgt; 40 m (slow towing speed) Doesn’t work broadside. Assumes straight-line propagation Sept. 5 proof-of-concept trial demonstrated results: Sept. 5 proof-of-concept trial demonstrated results ● Array depth had to be estimated for one array. ●Measured descent rate of 91 meters per minute, similar to 88 meter per minute measurements from next-day tag. broadside endfire Range vs. time Depth vs. time Two arrays plus tag refines localization-”leverages” tag info: Two arrays plus tag refines localization-'leverages' tag info 2001-Array depths still the bug-bear! Everything seems up in the air, as opposed to in the water: Everything seems up in the air, as opposed to in the water What ship for seismic playback? There was a lot of uncontrolled seismic exposures in 2002 What ship for research? Last year’s ship was way too noisy What 'holes' are there? The off axis acoustic signature of seismic vessels is not known. Modeling by IAGC free-space only, no waveguide effects included. Better arrays needed Bottom-mounted sensors? Stennis? You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Thode Techy_Guy Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 48 Category: News & Reports.. License: All Rights Reserved Like it (0) Dislike it (0) Added: September 17, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Sperm whale seismic study in Gulf of Mexico-acoustics focus: Sperm whale seismic study in Gulf of Mexico-acoustics focus General background My role: 3D tracking tagged/untagged animals—working a few months at a time Single array localization-2000 Tag/array integration-2001 Dual-array localization-2002-? Upcoming plans Aaron Thode, Marine Physical Lab, SIO, UCSD Marine Fisheries Service Background-SWAMP cruises 2000-2001: Background-SWAMP cruises 2000-2001 Sponsors Minerals Management Service International Association of Geophysical Contractors Marine Fisheries, SE, 2000-2001 Focus: effect of seismic exploration on sperm whales Endangered species Acoustically active 'Resident' populations Mississippi Canyon De Soto photo: Keith Mullin, SE Fisheries Service Present SWSS study centers on two types of tags: Present SWSS study centers on two types of tags Bruce Mate’s satellite tag (STAG) Long duration deployments—long-term habitat shift? Over 15 animals tagged, mostly on one day WHOI digital recording tag (DTAG) Also pressure, orientation, acceleration High-resolution behavioral responses, energy studies, 3D pseudeotracks Visual, biopsy, acoustic component Nineteen animals tagged in 2002, three simultaneously under controlled seismic exposure, many more under uncontrolled exposures. Gulf of Mexico an acoustically unfavorable propagation environment: Gulf of Mexico an acoustically unfavorable propagation environment Measured and computed detection ranges predict 3-10km, depending on source depth: Measured and computed detection ranges predict 3-10km, depending on source depth Three different towed array systems 30-100m depth, give ~6km range Source: MATLAB KRAKEN (should also Be repeated With Bellhop) Bottom-mounted sensors have similar predicted ranges: Bottom-mounted sensors have similar predicted ranges Stennis Space Center (George Ioup) has placed bottom-mounted sensors in general vicinity of SWSS. Some coordination, little overlap so far. To date passive acoustic data collection program uses towed arrays with few elements->close range work: To date passive acoustic data collection program uses towed arrays with few elements-andgt;close range work Outgrowth of Jay Barlow work, SWFSC. Also arrays from Ecologic, WHOI My focus has been tracking untagged animals, under various conditions: My focus has been tracking untagged animals, under various conditions Goal: statistically significant samples of low-resolution dive profiles under tagging/seismic conditions Complements high-resolution low volume tagging runs. Three branches: Single array localization-2000 Tag/array integration-2001 Dual-array localization-2002-? SWSS acoustic work involves close follows at slow speeds: SWSS acoustic work involves close follows at slow speeds NOAA ship Gordon Gunther 0.5-1.5 kts • Overnight tracking allowed biopsy, tagging in morning • July 3 typical-slow tow through middle of traveling pod • Silty/muddy flat bottom, depth measured with fathometer • Pod composition assumed to be females and juveniles • TDR was NOT attached during this particular sequence 930 m Slide10: tds tdb tdt Bearing 1 Bearing 2 R q zw za a Slide11: Example from one dive: Good depth resolution from 100 m depth Range uncertainty increases with animal depth Tracking ends when bottom returns vanish Ray refraction may be neglected for ranges less than 1 km: Ray refraction may be neglected for ranges less than 1 km True range (m) Slide13: During first stage of dive cycle inter-click interval is closely related to two-way travel time from whale to bottom. During second stage bottom bounces vanish and timing becomes irregular. Why so many clicks related to bottom? (New Zealand counterexample) Some work has been performed on merging tag/array data: Some work has been performed on merging tag/array data Simultaneous recordings on tag/array corrects pseudotrack. Acoustics does not have control of ship during most tagging operations, with interesting results. Time (sec) Array bearing (deg) The inter-click interval (ICI) used to identify tagged whale out of 7-13 other animals: The inter-click interval (ICI) used to identify tagged whale out of 7-13 other animals Using surface reflections only gives three different time-of-arrivals, with two arrays: Using surface reflections only gives three different time-of-arrivals, with two arrays Ishmael display: David Mellinger Two arrays can eliminate need for bottom reflection, if array depths measured: Two arrays can eliminate need for bottom reflection, if array depths measured Restrictions: Array depths known (difficult!) Depths andgt; 40 m (slow towing speed) Doesn’t work broadside. Assumes straight-line propagation Sept. 5 proof-of-concept trial demonstrated results: Sept. 5 proof-of-concept trial demonstrated results ● Array depth had to be estimated for one array. ●Measured descent rate of 91 meters per minute, similar to 88 meter per minute measurements from next-day tag. broadside endfire Range vs. time Depth vs. time Two arrays plus tag refines localization-”leverages” tag info: Two arrays plus tag refines localization-'leverages' tag info 2001-Array depths still the bug-bear! Everything seems up in the air, as opposed to in the water: Everything seems up in the air, as opposed to in the water What ship for seismic playback? There was a lot of uncontrolled seismic exposures in 2002 What ship for research? Last year’s ship was way too noisy What 'holes' are there? The off axis acoustic signature of seismic vessels is not known. Modeling by IAGC free-space only, no waveguide effects included. Better arrays needed Bottom-mounted sensors? Stennis?