Automatic Acoustic Identification of Insects: the case of crickets and cicadas |
T. Ganchev & I. Potamitis |
2007 |
3 |
281-328 |
A computer-based technique for the quantitative analysis of animal sounds |
Evans, M.R. & Evans, J.A. |
1994 |
4 |
281-290 |
Brays and bits: information theory applied to acoustic communication sequences of bottlenose dolphins |
A. R. Luís, I. S. Alves, F. V. Sobreira, M. N. Couchinho & M. E. dos Santos |
2019 |
3 |
286-296 |
Diversity of Fish Spawning Sounds and the Application of Passive Acoustic Monitoring |
Phillip S. Lobel |
2002 |
2-3 |
286-289 |
Elaboration of the NRC Population Consequences of Acoustic Disturbance (PCAD) Model |
Douglas Wartzok and Peter Tyack |
2008 |
1-3 |
286-288 |
Sound production and sound emission in seven species of European Tettigoniids. Part III. Determination of the mechanism of sound production using the cepstrum analysis |
Keuper, A. |
1989 |
4 |
287-306 |
Framework for develop prototype bioacoustic devices in aid of open sea Killer Whale Protection |
J.P. Luke, J. Almunia and F. Rosa |
2011 |
3 |
287-296 |
Using Passive Acoustics to Monitor Estuarine Fish Populations |
Joseph J. Luczkovich and Mark W. Sprague |
2002 |
2-3 |
289-291 |
A Proposed Method to Assess Physical Injury to Fishes from Underwater Sound Produced During Pile Driving |
David P. Woodbury and John H. Stadler |
2008 |
1-3 |
289-291 |
Sound localisation in a habitat: An analytical approach to quantifying the degradation of directional cues |
A. Michelson & K. Rohrseitz |
1997 |
4 |
291-313 |
Passive Hydrophone Census of Sciaena umbra (Sciaenidae) in the Gulf of Trieste (Northern Adriatic Sea, Italy) |
Clizia Bonacito, Marco Costantini, Marta Picciulin, Enrico A. Ferrero and Anthony D. Hawkins |
2002 |
2-3 |
292-294 |
Use of Sound for Localisation of Spawning Weakfish in Delaware Bay (USA) and Effects of Fish Size, Temperature and Season on Sound Parameters |
M.A. Connaughton, M.L. Fine and M.H. Taylor |
2002 |
2-3 |
294-296 |
Analysis of complex variation: dichotomous sorting of predator-elicited calls of the Florida scrub jay |
Elowson, A.M. & Hailman, J.P. |
1991 |
4 |
295-320 |
Soundscape diversity in the Great Barrier Reef: Lizard Island, a case study |
Jamie N. McWilliam, Rob D. McCauley, Christine Erbe & Miles J. G. Parsons |
2018 |
3 |
295-311 |
Statistical learning mitigation of false positives from template-detected data in automated acoustic wildlife monitoring |
Cathleen M. Balantic & Therese M. Donovan |
2020 |
3 |
296-321 |
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 |
Conceptual and statistical problems with the use of the Shannon-Weiner entropy index in bioacoustic analyses |
Luis Sandoval, Gilbert Barrantes & David R. Wilson |
2019 |
4 |
297-311 |
Recent Bioacoustical Publications, 1999 and earlier. Part II: mammals-general |
P. Hansen |
2001 |
4 |
297-334 |
Habitat acoustics of a neotropical lowland rainforest |
N. Ellinger & W. Hödl |
2003 |
3 |
297-321 |
Experiments for Possible Hydroacoustic Discrimination of Free-Swimming Juvenile Gadoid Fish by Analysis of Broadband Pulse Spectra as well as 3D Fish Position from Video Images and Split Beam Acoustics |
Bo Lundgren and J. Rasmus Nielsen |
2002 |
2-3 |
297-299 |
Bioacoustic survey of cicadas [abstract] |
M. Gogala & A. V. Popov |
1996 |
4 |
300-301 |
Distinguishing individual male wild turkeys by analyzing vocalizations using a personal computer |
Dahlquist, F.C., Schemnitz, S.D. & Flachs, B.K. |
1990 |
4 |
303-316 |
Monitoring biodiversity through natural sound diversity [abstract] |
Teruyo Oba |
1996 |
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303 |
An Overview of the Applied Use of Sound in Fisheries and Fish Biology |
Arthur N. Popper |
2002 |
2-3 |
303-305 |
Dual channel real-time analysis on a PC [abstract] |
G. Pavan & M. Manghi |
1996 |
4 |
304 |
Recording wildlife in tropical rainforest |
J. Vieilliard |
1993 |
4 |
305-311 |
Preliminary Evidence for the Use of Sound to Decrease Losses of Aquatic Organisms at a Power Plant Cooling Water Intake |
Arthur N. Popper, John Balletto, Kenneth Strait, Fred Winchell, Alan W. Wells and Maureen Vaskis |
2002 |
2-3 |
306-307 |
A pilot study for recognition of individual nightjars [abstract] |
M. Rebbeck |
1996 |
4 |
306 |
Computer-aided analysis of acoustic parameters: new possibilities of signal analysis [abstract] |
L. Schrader & K. Hammerschmidt |
1996 |
4 |
307 |
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 |
Avisoft-Sonagraph Pro - sonagraphic analysis under Windows [abstract] |
R. Specht |
1996 |
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308 |
Computer-aided acoustic analysis of complex bird calls [abstract] |
J. Böhner & K. Hammerschmidt |
1996 |
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313-314 |
The acoustic space of pain: Cries as indicators of distress recovering dynamics in preverbal infants |
Alexis Koutseff, David Reby, Olivier Martin, Florence Levrero, Hugues Patural & Nicolas Mathevon |
2018 |
4 |
313-325 |
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 |
The Use of Acoustically Evoked Potentials for the Study of Hearing in Fishes |
Hong Young Yan |
2002 |
2-3 |
325-328 |
In Vitro Whole Brain Preparation of Fish for the Electrophysiological Analysis of Sensory Pathways |
Michaela Meyer, Dennis T. T. Plachta, Arthur N. Power and Horst Bleckmann |
2002 |
2-3 |
328-330 |
Recent Bioacoustic Publications (2006 and earlier). Part 2: Mammals - Techniques |
Hansen, P. |
2007 |
3 |
329-365 |
Analyses of Small Tank Acoustics: Empirical and Theoretical Approaches |
Tsuyoshi Okumura, Tomonari Akamatsu and Hong Y. Yan |
2002 |
2-3 |
330-332 |
Equipment for recording the sounds of birds and other animals |
R. Ranft |
1991 |
4 |
331-334 |
Sound Exposure Chamber for Assessing the Effects of High-Intensity Sound on Fish |
James S. Martin and Peter H. Rogers |
2008 |
1-3 |
331-333 |
Acoustical Neural Telemetry from Free-Swimming Fish |
Allen F. Mensinger and Max Deffenbaugh |
2002 |
2-3 |
333-334 |
Technical Instrumentation Issues Related to the Design and Execution of a Controlled-Exposure Experiment for Large Cetaceans to Assess Possible Behavioural Responses and Potential Impacts |
Bruce R. Mate |
2008 |
1-3 |
334-336 |
A Remote-Controlled Instrument Platform for Fish Behaviour Studies and Sound Monitoring |
Ingvald Svellingen, Bjørn Totland and Jan Tore Øvredal |
2002 |
2-3 |
335-336 |
Designing Experiments to Test for Behavioural Effects of Sound |
Peter K. McGregor |
2008 |
1-3 |
336-338 |
Pre-processing spectrogram parameters improve the accuracy of bioacoustic classification using convolutional neural networks |
Elly C. Knight, Sergio Poo Hernandez, Erin M. Bayne, Vadim Bulitko & Benjamin V. Tucker |
2020 |
3 |
337-355 |
Discriminating Between Fish Sounds - a Wavelet Approach |
Mark Wood, Licia Casaretto, Graham Horgan and Anthony D Hawkin |
2002 |
2-3 |
337-339 |
BioAcoustic Index Tool: Long-term biodiversity monitoring using on-sensor acoustic index calculations |
David Kadish & Kasper Stoy |
2022 |
3 |
348-378 |
Which Qs to choose: questions of quality in Bioacoustics? |
H. C. Bennet-Clark |
1999 |
4 |
351-359 |
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 |
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 |