qpe pilot acousc (tl) results qpe ‘09 acousc adapve ... · • omas was successfully deployed (5...
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QPE Pilot Acous-c (TL) results QPE ‘09 Acous-c Adap-ve Sampling
Plans
Kevin Heaney, Chris Emerson, Dave Morton, Phil Abbot OASIS, Inc.
QPE Kauai Mee-ng January 12, 2009
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Acous-c Runs 3 days (of 5 planned)
Sept. 6 Shallow water (110m) Single OMAS ‐ Linear
Sept. 8 Shallow water (120m) Single OMAS – L paWern Lost signal in deeper water
Sept. 9 Two circular OMAS TL measured for both circles Coherence Studies (Emerson) Loss of signal off of shelf
Acous-c Pilot Results: Isotropy/horizontal invariance measurements (site 2 weak isotropic) Established baseline model from data (site 1/2) Significant bathymetric effects on TL
Successfully Demonstrated: Night Ops/Deployment from NTU‐Vessel
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~ Range Independent TL Run QPE08 TAIWAN, September 6, OMAS # 15304 , ds=90f, dr = 90f
Track 1 Track 2 Track 3
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Model‐Data Comparisons
• Need to compare apples‐to‐apples – In order to increase SNR OMAS system transmits LFM and uses peak of the matched filter output as a proxy for TL
• In order to compare, we compute the BB PE field, FFT and pick the take the peak.
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OMAS Broadband Measurements
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BB Signal vs. Range
AWenua-on
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5 km
R = 4 km
5 km
R = 8 km
5 km
R = 10 km
Pilot Data‐Model Arrival PaWern Comparisons (Normalized to peak) Using 1562 m/s 0.25 dB/λ 1.8 g/cc
5 km
R = 5 km
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TL Comparison Using BB Inversion Result
Model‐Data TL Comparison
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QPE Pilot Acous-c Conclusions
• OMAS was successfully deployed (5 -mes) during night ops from RV‐2
• Vessel noise does impact short range recordings • Bathymetry (near shelf‐break) strongly affects TL and must be accounted for in geometry planning
• OMAS MF‐output can be used to determine signal evolu-on vs. range
• Signal waveform can be used to rapidly es-mate a geo‐acous-c Inversion
• DIFAR calibra-on issue needs to be resolved with local source
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Objec-ves for 09 Test
• Primary Goal: Develop an integrated package for collec-ng and assimila-ng acous-c/ambient noise/oceanographic data to reduce acous-c uncertainty
• Apply near‐real -me (NRT) MF geo‐acous-c inversion to signals
• Using updated geo‐acous-cs perform acous-c sensi-vity computa-on
• Analyze ambient noise to improve SNR predic-on and exploita-on
• Generate NRT acous-c adap-ve sampling runs for reducing oceanographic variability
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Acous-c Adap-ve Sampling
• Integrate acous-c signal processing (signal and noise) with dynamic ocean forecast (MIT/SIO)
• Integrate updated geo‐acous-cs (from pilot/in‐situ measurements)
• Assimilate ambient noise measurements (compare with predic-ons)
• Generate real‐-me acous-c sensi-vity (uncertainty) and coverage maps
• Generate op-mal adap-ve sampling runs to both reduce uncertainty and op-mize SNR
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Acous-c AS Priori-es for QPE’09
• At most 2 sites (personal preference: 1 and 4) • Prefer Linear Tracks (in addi-on to circular) • Return to previous sites afer sufficient collec-on and assimila-on of data (+3 days?)
• Transmit subset of acous-c data to shore – TL vs. range – MF evolu-on vs. range – Ambient noise omni sta-s-cs (Direc-onality?)
• Perform a set of “adap-ve sampling” runs for reduc-on and exploita-on of uncertainty.