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Bone Conduction Communication: Research Progress and Directions
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Auditory Perception in an Open Space: Detection and Recognition
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In: DTIC (2015)
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The Temporal Morphology of Infrasound Propagation
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In: DTIC (2010)
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Abstract:
Expert knowledge suggests that the performance of automated infrasound event association and source location algorithms could be greatly improved by the ability to continually update station travel-time curves to properly account for the hourly daily, and seasonal changes of the atmospheric state. With the goal of reducing false alarm rates and improving network detection capability we endeavor to develop, validate, and integrate this capability into infrasound processing operations at the International Data Centre of the Comprehensive Nuclear Test-Ban Treaty Organization. Numerous studies have demonstrated that incorporation of hybrid ground-to-space (G2S) environmental specifications in numerical calculations of infrasound signal travel time and azimuth deviation yields significantly improved results over that of climatological atmospheric specifications, specifically for tropospheric and stratospheric modes. A robust infrastructure currently exists to generate hybrid G2S vector spherical harmonic coefficients based on existing operational and empirical models on a real-time basis (every 3- to 6-hours) (DROB et al., 2003). Thus the next requirement in this endeavor is to refine numerical procedures to calculate infrasound propagation characteristics for robust automatic infrasound arrival identification and network detection location, and characterization algorithms. We present results from a new code that integrates the local (range-independent) sp ray equations to provide travel time, range, turning point, and azimuth deviation for any location on the globe given a G2S vector spherical harmonic coefficient set. ; Published in Pure and Applied Geophysics, 2010. Prepared in cooperation with University of Hawaii; University of California; and International Data Centre, Vienna, Austria.
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Keyword:
*INFRASOUND; *MORPHOLOGY; *OCEANOGRAPHY; *PROPAGATION; ACOUSTIC TOMOGRAPHY; Acoustics; ALGORITHMS; ATMOSPHERIC VARIABILITY; ATMOSPHERICS; AUTOMATED EVENT DETECTION; AZIMUTH; CLIMATOLOGY; COMPUTATIONS; CTBTO; GROUND TRUTH; IDC; IMS; Linguistics; Operations Research; Physical and Dynamic Oceanography; POSITION(LOCATION); SEISMOLOGY; SOURCE LOCATION; STRATOSPHERE; TROPOSPHERE
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URL: http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA533902 http://www.dtic.mil/docs/citations/ADA533902
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Acoustic analysis of monophthong and diphthong production in acquired severe to profound hearing loss
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Application of a Back-Propagation Neural Network to Isolated-Word Speech Recognition
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In: DTIC AND NTIS (1993)
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Acoustic Classification with Neural Networks
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In: DTIC AND NTIS (1990)
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