04. Towards Automatic Target Recognition. Detection, Classification and Modelling |
ON THE BENEFIT OF MULTIPLE REPRESENTATIONS WITH CONVOLUTIONAL NEURAL NETWORKS FOR IMPROVED TARGET CLASSIFICATION USING SONAR DATA
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Williams David, Hamon Ronan, Gerg Isaac |
04. Towards Automatic Target Recognition. Detection, Classification and Modelling |
ATR PERFORMANCE FOR TARGET CLUSTERING
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Melo José, Dugelay Samantha |
04. Towards Automatic Target Recognition. Detection, Classification and Modelling |
MBES WATER COLUMN DATA PROCESSING FOR SMALL UNDERWATER TARGET RECOGNITION
|
Quidu Isabelle, Legris Michel |
04. Towards Automatic Target Recognition. Detection, Classification and Modelling |
ENVIRONMENTALLY ADAPTIVE AUTOMATIC DETECTION OF LINEAR SEAFLOOR FEATURES IN SIDESCAN SONAR IMAGERY: THE CASE OF TRAWL MARKS DETECTION
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Gournia Charikleia, Fakiris Elias, Geraga Maria, Williams David P., Papatheodorou George |
04. Towards Automatic Target Recognition. Detection, Classification and Modelling |
BAYESIAN SEAFLOOR CHARACTERIZATION FROM SAS IMAGERY
|
Gips Bart |
04. Towards Automatic Target Recognition. Detection, Classification and Modelling |
TARGET CLASSIFICATION USING MULTI-VIEW SYNTHETIC APERTURE SONAR IMAGERY
|
D'Alès De Corbet Benoît, Williams David, Dugelay Samantha |
04. Towards Automatic Target Recognition. Detection, Classification and Modelling |
THREATENING DEGREE ASSESSMENT METHOD OF SONAR TARGETS BASED ON MULTI-SOURCE INFORMATION FUSION
|
Zhou Bin, Song Xuejing, Wang Qing, Chen Yuechao |
12. Marine sediment acoustics |
AN EVALUATION OF METRICS USED FOR SEDIMENT CLASSIFICATION USING NORMAL-INCIDENCE ECHO SOUNDING
|
Isakson Marcia |
12. Marine sediment acoustics |
SOUND SPEED AND ATTENUATION IN WATER-SATURATED SAND-SIZED MATERIALS AT MHZ FREQUENCIES
|
Hare Jenna, Hay Alex |
12. Marine sediment acoustics |
IN SITU MEASUREMENTS OF SEDIMENT SOUND SPEED AND ATTENUATION FROM LOW- TO MID-FREQUENCIES
|
Yang Jie, Jackson Darrell R. |
12. Marine sediment acoustics |
EFFECT OF A SOFT SEDIMENT LAYER ON ACOUSTIC NORMAL MODE PROPAGATION IN THE NEW ENGLAND MUD PATCH
|
Potty Gopu R, Miller James H |
12. Marine sediment acoustics |
MEASURING SEABED PROPERTIES OF THE NEW ENGLAND MUD PATCH USING AMBIENT NOISE COHERENCE
|
Barclay David, Bevans Dieter, Buckingham Michael |
12. Marine sediment acoustics |
INFERENCE OF SOUND SPEED WITHIN A GRANULAR SEDIMENT IN A LABORATORY LAYERED WAVEGUIDE: IMPLICATIONS FOR THE FLUID MODEL
|
Venegas Gabriel R, Wilson Preston S |
21. Target Echo Strength-Measurements and Modelling |
PRELIMINARY TARGET MEASUREMENTS FROM A PROTOTYPE MULTISPECTRAL SYNTHETIC APERTURE SONAR
|
Rymansaib Zuhayr, Hunter Alan, Bowen Christopher, Dillon Jeremy, Charron Richard, Shea David |
21. Target Echo Strength-Measurements and Modelling |
SCATTERING FROM MULTIPLE ELASTIC TARGETS USING THE COUPLED FINITE ELEMENT/BOUNDARY ELEMENT METHOD
|
Abawi Ahmad, Krysl Petr |
21. Target Echo Strength-Measurements and Modelling |
COMPARING TARGET ECHO STRENGTH MODELS FOR A GENERIC SUBMARINE
|
Curtis Alan, Nigro David, Harter Robert, Stirland Martin |
21. Target Echo Strength-Measurements and Modelling |
ACOUSTIC SCATTERING FROM THIN-WALLED CYLINDERS: EXPERIMENTAL VALIDATION OF A NOVEL BOUNDARY ELEMENT METHOD
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Tsinovoy Anatoli, Chernokozhin Evgeny, Kahanov Matan, Boag Amir |
21. Target Echo Strength-Measurements and Modelling |
TARGET ECHO STRENGTH OF A SCALED STEEL BODY WITH INNER STRUCTURE AND THIN HULL
|
Stoltenberg Arne, Schäfer Ingo |
21. Target Echo Strength-Measurements and Modelling |
INFLUENCE OF FLUID-STRCTURE COUPLING ON TARGET ECHO STRENGTH SIMULATION
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Schaefer Ingo, Ehrlich Jan, Burgschweiger Ralf, Ochmann Martin |
21. Target Echo Strength-Measurements and Modelling |
TARGET ECHO STRENGTH-MEASUREMENTS AND MODELLING
|
Beadle Joseph. G, Sambles J. Roy, Hibbins Alastair. P. |