Automatic acoustic identification of shrew species in the field – new potential monitoring techniques [abstract] |
Zsebok, S; Czabán, D; Farkas, J |
2012 |
1 |
62-63 |
Pinpointing the position of flying songbirds with a wireless microphone array: three-dimensional triangulation of warblers on the wing |
Zach G. Gayk & Daniel J. Mennill |
2020 |
4 |
375-386 |
Automatic bird sound detection: logistic regression based acoustic occupancy model |
Yi-Chin Tseng, Bianca N. I. Eskelson, Kathy Martin & Valerie LeMay |
2021 |
3 |
324-340 |
Parselmouth for bioacoustics: automated acoustic analysis in Python |
Yannick Jadoul, Bart de Boer & Andrea Ravignani |
2024 |
1 |
1-19 |
Development and test of a bat calls detection and classification method based on convolutional neural networks |
Y. Paumen, M. Mälzer, S. Alipek, J. Moll, B. Lüdtke & H. Schauer-Weisshahn |
2022 |
5 |
505-516 |
A New Method to Investigate the Downstream Migration of Fishes Within a Hydropower Plant Area in a Middle European River - A Possibility to Evaluate the Effectiveness of Behaviour Barriers |
Wolfgang Schmalz, Maria Siegesmund, Konrad Thuermer, Joerg Kranawettreiser and Hans-Peter Hack |
2002 |
2-3 |
308-310 |
Computer analysis of bird sounds: a guide to current methods |
Williams, J.M. & Slater, P.J.B. |
1991 |
2 |
121-128 |
WPLOT: a utility for preparing bioacoustic data files for offline processing [abstract] |
Wesley R. Elsberry |
1998 |
2 |
160 |
Sonograms from a personal computer [abstract] |
Watts, D. |
1989 |
2 |
169 |
Underwater sound recording of animals |
Watkins, W.A. & Daher, M.A. |
1992 |
3 |
195-209 |
The influence of bat detector brand on the quantitative estimation of bat activity |
Waters, D.A. & Walsh, A.L. |
1994 |
3 |
205-221 |
Assessing spontaneous howling rates in captive wolves using automatic passive recorders |
Vicente Palacios, Shannon M. Barber-Meyer, Bárbara Martí-Domken & Lori J. Schmidt |
2022 |
5 |
562-574 |
Analysis of Mouse Vocal Communication (AMVOC): A deep, unsupervised method for rapid detection, analysis, and classification of ultrasonic vocalizations |
Vasiliki Stoumpou, César D. M. Vargas, Peter F. Schade, J. Lomax Boyd, Theodoros Giannakopoulos & Erich D. Jarvis |
2023 |
2 |
199-229 |
Analyses of Small Tank Acoustics: Empirical and Theoretical Approaches |
Tsuyoshi Okumura, Tomonari Akamatsu and Hong Y. Yan |
2002 |
2-3 |
330-332 |
Real-time click interval acquisition system for dolphin echolocation signals [abstract] |
Tomonari Akamatsu, Yoshimasa Narita and Takao Matsu-Ura |
1998 |
3 |
225 |
The harmonics to noise ratio applied to dog barks [abstract] |
Tobias Riede, Guenter Tembrock, Hanspeter Herzel and Leo Brunnberg |
2002 |
1 |
79 |
A system for describing bird song units |
Thompson, N.S., LeDoux, K. & Moody, K. |
1994 |
4 |
267-279 |
Statistical characterisation and classification of marine mammal sounds by multiple-resolution encoding of training data distributions [abstract] |
Thomas J. Hayward |
1998 |
3 |
223-224 |
SYNTANA: a software for the SYNThesis and ANAlysis of animal sounds [abstract] |
Thierry Aubin |
1994 |
1 |
80-81 |
The importance of acoustic background modelling in CNN-based detection of the Neotropical White-lored Spinetail (Aves, Passeriformes, Furnaridae) |
Thiago M. Ventura, Todor D. Ganchev, Cristian Pérez-Granados, Allan G. de Oliveira, Gabriel de S. G. Pedroso, Marinez I. Marques & Karl-L. Schuchmann |
2024 |
2 |
|
Monitoring biodiversity through natural sound diversity [abstract] |
Teruyo Oba |
1996 |
4 |
303 |
A bioacoustic approach to diagnosing environments: a combination of the sound source species analysis and sound map [abstract] |
Teruyo Oba |
2002 |
2 |
190 |
Classification of diverse call types using cluster analysis techniques |
Terhune, J.M., Burton, H. & Green, K. |
1993 |
4 |
245-258 |
Steps towards bioacoustic data mining [abstract] |
Taylor, A. |
2012 |
1 |
57-58 |
Slope does not affect autonomous recorder detection shape: considerations for acoustic monitoring in forested landscapes |
Taylor Shaw, Sandra Müller & Michael Scherer-Lorenzen |
2022 |
3 |
261-282 |
Passive Iocalization of acoustic sources in media with non-constant sound velocity ' [abstract] |
T. Scott Brandes |
1998 |
2 |
155-156 |
An automatic acoustic response system for behavioural studies of duetting insects |
T. J. Hammond, W. J. Bailey & G. R. Hammond |
2003 |
1 |
3-14 |
Automatic Acoustic Identification of Insects: the case of crickets and cicadas |
T. Ganchev & I. Potamitis |
2007 |
3 |
281-328 |
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 |
New methods for recording low-amplitude signals. Application to the analysis of the courtship song of Drosophila genus [abstract] |
T. Aubin |
1996 |
4 |
297-298 |
Some Features of Time-Frequency Analysis and Representation of Animal Vocalizations [abstract] |
T. Aubin |
1992 |
1 |
59-60 |
'Sense and Census ability'- Reliability of psychoacoustic sampling as a method to monitor cricket species diversity [abstract] |
Swati, D; Manjari, J; Balakrishnan, R. |
2012 |
1 |
57 |
An unsupervised Hidden Markov Model-based system for the detection and classification of blue whale vocalizations off Chile |
Susannah J. Buchan, Rodrigo Mahú, Jorge Wuth, Naysa Balcazar-Cabrera, Laura Gutierrez, Sergio Neira & Néstor Becerra Yoma |
2020 |
2 |
140-167 |
Audio computers - theory of operation and guidelines for selection of systems and components |
Stoddard, P.K. |
1990 |
3 |
217-239 |
Non-invasive acoustic detection of wolves |
Stefan M. Suter, Marta Giordano, Silvia Nietlispach, Marco Apollonio & Daniela Passilongo |
2017 |
3 |
237-248 |
An Evaluation of Manual and Automated Methods for Detecting Sounds of Maned Wolves (Chrysocyon brachyurus Illiger 1815) |
Silva Rocha, Luciana; Stamatto Ferreira, L; Paula, B; Guimarães Rodrigues, F; de Sousa Lima Mobley, R |
2015 |
2 |
185-198 |
Combining audio and non-audio inputs in evolved neural networks for ovenbird classification |
Sergio Poo Hernandez, Vadim Bulitko & Erin Bayne |
In press |
|
|
Passive Acoustic Monitoring in terrestrial vertebrates: a review |
Sebastian Hoefer, Donald T. McKnight, Slade Allen-Ankins, Eric J. Nordberg & Lin Schwarzkopf |
2023 |
5 |
506-531 |
Assessing the Impact of Underwater Noise on Marine Fauna: a Software Tool |
Scott A. Carr and Christine Erbe |
2008 |
1-3 |
241-243 |
Vocal instability over time in individual male European Nightjars, Caprimulgus europaeus: recommendations for acoustic monitoring and surveys |
Sarah Raymond, Sarah Spotswood, Hazel Clarke, Natalia Zielonka, Andrew Lowe & Kate L. Durrant |
2020 |
3 |
280-295 |
A combined neural network-statistics method for automated sperm whale clicks detection [abstract] |
Sanchéz-García, A, Bueno-Crespo, A & Sancho-Gomez, J L |
2012 |
1 |
79-80 |
Discriminating individual big brown bat (Eptesicus fuscus) sonar vocalizations in different recording situations |
S.C. Burnett, K.A. Kazial & W. Mitchell Masters |
2001 |
3 |
189-210 |
A comparison of the performance of broad-band and narrow-band bat detectors in two different habitat types |
S. Parsons |
1996 |
1 |
33-43 |
Methods of frequency analysis of a complex mammalian vocalisation |
S. K. Darden, S. B. Pedersen & T.Dabelsteen |
2003 |
3 |
247-263 |
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 |
An electronic technique for monitoring the temporal aspects of acoustic signals of captive organisms |
S. Bertram & L. Johnson |
1998 |
2 |
107-118 |
Discriminating individual sea lions by voice: a neural network signal processing solution to signature call identification [abstract] |
Robert C. Gisiner, Gregory Campbell & David Helweg |
2002 |
2 |
185 |
Sound analysis and synthesis using an Amiga micro-computer |
Richard, J.-P. |
1991 |
1 |
45-60 |
Sound analysis and synthesis using an Amiga microcomputer [abstract] |
Richard, J. P. |
1989 |
2 |
170 |
AURITA: an affordable, autonomous recording device for acoustic monitoring of audible and ultrasonic frequencies |
Richard D. Beason, Rüdiger Riesch & Julia Koricheva |
2019 |
4 |
381-396 |