|
Tests for Call Restoration in the Gray Treefrog Hyla versicolor |
Joshua J. Schwartz, Kenneth Huth, Sherryll H. Jones, Robert Brown, Jacqueline Marks & Xiaoliang Yang |
2010 |
1 |
59-86 |
|
Comparing repertoires of sperm whale codas: a multiple methods approach |
L. E. Rendell & H. Whitehead |
2003 |
1 |
61-81 |
|
The harmonics to noise ratio applied to dog barks [abstract] |
Tobias Riede, Guenter Tembrock, Hanspeter Herzel and Leo Brunnberg |
2002 |
1 |
79 |
|
Improving individual identification in captive Eastern Grey Wolves (Canis lupus lycaon) using the time course of howl amplitudes |
Holly Root-Gutteridge, Martin Bencsik, Manfred Chebli, Louise K. Gentle, Christopher Terrell-Nield, Alexandra Bourit and Richard W. Yarnell |
2014 |
1 |
39-53 |
|
The soundscape of Arctic charr spawning grounds in lotic and lentic environments: can Passive Acoustic Monitoring be used to detect spawning activities? |
Marta Bolgan, Joanne O’Brien, Emilia Chorazyczewska, Ian J. Winfield, Peter McCullough & Martin Gammell |
2018 |
1 |
57-85 |
|
Recent Bioacoustical Publications (1997 and earlier). Part II: Mammals-General |
Hansen, P. |
1999 |
1 |
73-95 |
|
A computational model of humpback whale hearing [abstract] |
David A. Helweg |
2002 |
1 |
85 |
|
Crowd intelligence can discern between repertoires of killer whale ecotypes |
Anastasya Yu. Danishevskaya, Olga A. Filatova, Filipa I P. Samarra, Patrick J O. Miller, John K B Ford, Harald Yurk, Craig O. Matkin & Erich Hoyt |
2020 |
1 |
15-27 |
|
Automated bat call classification using deep convolutional neural networks |
E. Schwab, S. Pogrebnoj, M. Freund, F. Flossmann, S. Vogl & K.-H. Frommolt |
2023 |
1 |
1-16 |
|
A field test of the accuracy of a passive acoustic location system |
J. L. Bower & C. W. Clark |
2005 |
1 |
1-14 |
|
Equipment & techniques for the study of ultrasound in air |
J. D. Pye |
1992 |
1 |
77-88 |
|
Modelling interspecific differences in chickadee notes with a multiplicative AM model [abstract] |
Arch McCallum |
2002 |
1 |
88-89 |
|
Classification algorithms for species identification in noisy environments [abstract] |
I. Agranat |
2012 |
1 |
25 |
|
Vocalizations of the Ryukyu Scops Owl: individually recognisable and stable |
Masaoki Takagi |
2020 |
1 |
28-44 |
|
Minidisc recorders versus audiocassette recorders: a performance comparison |
D. M. Logue, D. E. Gammon & M. C. Baker |
2005 |
1 |
15-33 |
|
Automatic detection and species identification of blue and fin whale calls [abstract] |
David A. Helweg |
2002 |
1 |
96 |
|
Bioacoustic monitoring of nocturnal birds in wetland areas [abstract] |
Frommolt, K-H & Tauchert, K-H |
2012 |
1 |
34 |
|
A telemetry study to discriminate between home range and territory size in Tawny Owls |
Gorka Burgos & Iñigo Zuberogoitia |
2020 |
1 |
109-121 |
|
Call-independent individual identification in birds |
E. J.S. Fox, J. D. Roberts & M. Bennamoun |
2008 |
1 |
51-67 |
|
A simple method for recording low-amplitude sounds: application to the study of the courtship song of the fruit fly Drosophila melanogaster |
T. Aubin, F. Rybak & B. Moulin |
2000 |
1 |
51-67 |
|
Individual acoustic identification as a non-invasive conservation tool: an approach to the conservation of the African wild dog Lycaon pictus (Temminck, 1820) |
S. Hartwig |
2005 |
1 |
35-50 |
|
A versatile PC-based multichannel triggering hard-disk recording system for long-term monitoring of animal sounds [abstract] |
R. Specht |
2002 |
1 |
96-97 |
|
Some Features of Time-Frequency Analysis and Representation of Animal Vocalizations [abstract] |
T. Aubin |
1992 |
1 |
59-60 |
|
Combining audio and non-audio inputs in evolved neural networks for ovenbird classification |
Sergio Poo Hernandez, Vadim Bulitko & Erin Bayne |
In press |
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