- Application of Twersky's bossscattering theory to laboratory measurements of sound scattered by a rough surface
- Broadband acoustic backscatter and high-resolution morphology of fish: Measurement and modelinga)
- Volume scattering: Echo peak PDF T.K. Stanton
- Complex waftmeter measurements in a reactive acoustic T. K. Stantonand R. T. Beyer
- Deep-Sea Research II 55 (2008) 432454 Euphausiid distribution along the Western Antarctic Peninsula--Part B
- Ray representation of sound scattering by weakly scattering deformed fluid cylinders: Simple physics and application
- IEEE JOURNAL OF OCEANIC ENGINEERTNG, VOL. OE-12, NO.2, APRIL 1987 339 A Field Examination of Acoustical Scattering from
- 700 IEEE JOURNAL OF OCEANIC ENGINEERING, VOL. 27, NO. 3, JULY 2002 BIOMAPER-II: An Integrated Instrument Platform
- Soundscatteringby cylindersoffinitelength.I. Fluid cylinders T.K. Stanton
- Acoustic scattering by axisymmetric finite-length bodies: An extension of a two-dimensional conformal mapping method
- Simple approximate formulas for backscattering ofsound by sphericalandelongatedobjects
- Influence of environmental conditions on acoustical properties K.C. Jezeka)
- Soundscatteringby sphericalandelongatedshelledbodies T.K. tanton
- Acoustical reflection and scattering from the underside of laborato.ry grown sea ice: Measurements and predictions
- Sound scattering by cylinders offinite length. II. Elastic cylinders T.K. Stanton
- Distributions of physonect siphonulae in the Gulf of Maine and their potential as important sources
- Use of the distorted wave Born approximation to predict scattering by inhomogeneous objects: Application to
- Deep-Sea Research II 55 (2008) 412431 Euphausiid distribution along the Western Antarctic Peninsula--
- Improved parameterization of Antarctic krill target strength models
- The interaction of sound with noise in water T. K. Stantonand R. T. Beyer
- Sonar estimates of seaflOormicroroughness T.K. Stanton
- Sea surface scattering: Echo peak PDF T.K. Stanton
- Determining dominant scatterers of sound in mixed zooplankton populations
- Application of pulse compression techniques to broadband acoustic scattering by live individual zooplanktona)
- IEEE JOURNAL OF OCEANIC ENGINEERING, VOL. 22, NO. 3, JULY 1997 445 High-Frequency Acoustic Volume Backscattering
- Acoustic scattering by benthic and planktonic shelled animals Timothy K. Stanton and Dezhang Chu
- Effects of transducer motion on echo-integration techniques T.K. Stanton
- Sound scattering by rough elongated elastic objects. III. Experiment
- 260 IEEE JOURNAL OF OCEANIC ENGINEERING, VOL. 29, NO. 2, APRIL 2004 Non-Rayleigh Acoustic Scattering Characteristics
- On acoustic scattering by a shell-covered seafloor Timothy K. Stanton
- 280 IEEE JOURNAL OF OCEANIC ENGINEERING, VOL. OE-8, NO. 4, OCTOBER 1983 POWELLAND STANTON: SONAR ECHO PROCESSOR FOR REAL-TIME PROCESSING 281
- Fresnel zone effects in the scattering of sound by cylinders of various lengths
- Effectsof second-orderscattering on high resolution sonars T. K. Stanton
- Sound scattering by several zooplankton groups. I. Experimental determination of dominant scattering mechanismsa),b)
- Higher-order acoustic diffraction by edges of finite thickness Dezhang Chua
- September 2010 TIMOTHY K. STANTON
- Interaction of sound with noise in water II T. K. Stanton
- Noise-equivalentpressureof a single-fiberinterferometric acoustic sensor
- On the acoustic diffraction by the edges of benthic shells Timothy K. Stantona)
- Calibration of broadband active acoustic systems using a single standard spherical target
- IEEE JOURNAL OF OCEANIC ENGINEERING, VOL. OE-11, NO. 1, JANUARY 1986 79 Sonar Echo Statistics as a Remote-Sensing Tool
- Density estimates of biological sound scatterers using sonar echo T.K. Stanton
- Soundscattering by rough elongatedelasticobjects.II: Fluctuations of scattered field
- Sound scattering by several zooplankton groups. II. Scattering models
- February 2009 TIMOTHY K. STANTON
