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Equipment for recording the sounds of birds and other animals |
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Low-cost acoustic design of a bat test room |
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81-87 |
Is fidelity futile? The "true" signal is illusory, especially with ultrasound |
Pye, J.D. |
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271-286 |
Diversity of Fish Spawning Sounds and the Application of Passive Acoustic Monitoring |
Phillip S. Lobel |
2002 |
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286-289 |
Designing Experiments to Test for Behavioural Effects of Sound |
Peter K. McGregor |
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336-338 |
Airborne vs. radio-transmitted vocalisations in two primates: a technical report |
Patrice Adret, James S. Cochran & Mauricio Suarez Roda |
2018 |
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Wolf counting and individual acoustic discrimination by spectrographic analysis [abstract] |
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2012 |
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78-79 |
Time-frequency warping of spectrograms with the application to bird sound analysis |
Panu Somervuo |
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257-268 |
Bloodhound, a tool based on the chirplet transform for the analysis of wolf chorus howls recordings [abstract] |
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2012 |
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Development of a simplified ray path model for estimating the range and depth of vocalising marine mammals [abstract] |
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231-232 |
A sound analysis system based on LabVIEW applied to the analysis of suckling grunts of domestic pigs Sus scrofa |
P.-C. Schon, B. Puppe & G. Manteuffel |
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A non-intrusive tracking technique for dolphins interacting with a pelagic trawl using a sparse array of hydrophones [abstract] |
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228 |
Recent bioacoustic publications (2008 and earlier). Part 3: Mammals-General |
P. Hansen |
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225-264 |
Recent Bioacoustical Publications, 1999 and earlier. Part II: mammals-general |
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297-334 |
Recent Bioacoustic Publications (2002 and earlier). Part 2: Mammals - General |
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2004 |
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229-265 |
Recent Bioacoustic Publications (2004 and earlier) |
P. Hansen |
2005 |
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97-138 |
Bioacoustic Absorption Spectroscopy: Estimation of the Biomass of Fish with Swimbladders |
Orest Diachok |
2002 |
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271-274 |
Variant maps for bat echolocation call identification algorithms |
Olga Heim, Dennis M. Heim, Lara Marggraf, Christian C. Voigt, Xin Zhang, Yaming Luo & Jeffrey Zheng |
2020 |
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557-571 |
Hidden Markov model for detection of mysticetes' vocalisations based on principal component analysis |
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2022 |
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710-738 |
A software bird call detector and its application to automated playback experiments |
Okanoya, K. & Kimura, T. |
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117-122 |
Boing! Acoustic localization, characterisation and comparison of minke whale songs from the Hawaiian islands and other areas in the North Pacific Ocean [abstract] |
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2012 |
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77 |
Monitoring cave-dwelling bats using remote passive acoustic detectors: a new approach for cave monitoring |
Natalia Revilla-Martín, Ivana Budinski, Xavier Puig-Montserrat, Carles Flaquer & Adrià López-Baucells |
2021 |
5 |
527-542 |
Identification of British bat species by multivariate analysis of echolocation call parameters |
N. Vaughan, G. Jones & S. Harris |
1997 |
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189-207 |
Habitat acoustics of a neotropical lowland rainforest |
N. Ellinger & W. Hödl |
2003 |
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297-321 |
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 |
A Toolbox for Animal Call Recognition |
Michael Towsey, Birgit Planitz, Alfredo Nantes, Jason Wimmer & Paul Roe |
2012 |
2 |
107-125 |
Digital filters in auditory physiology |
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1989 |
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87-115 |
Individually distinctive bittern booms: potential as a census tool |
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On the extraction of some time dependent parameters of an acoustic signal by means of the analytic signal concept. Its application to animal sound study |
Mbu Nyamsi, R.G., Aubin, T. & Brémond, J.C. |
1994 |
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187-203 |
Towards an Automated Acoustic Detection System for Free-ranging Elephants |
Matthias Zeppelzauer, Sean Hensman, Angela S. Stoeger |
2015 |
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13-29 |
Vocal discrimination of African lions and its potential for collar-free tracking |
Matthew Wijers, Paul Trethowan, Byron Du Preez, Simon Chamaillé-Jammes, Andrew J. Loveridge, David W. Macdonald & Andrew Markham |
2021 |
5 |
575-593 |
CARACAL: A versatile passive acoustic monitoring tool for wildlife research and conservation |
Matthew Wijers, Andrew Loveridge, David W. Macdonald & Andrew Markham |
2021 |
1 |
41-57 |
Studies of cicada sound production using commercial HS video [abstract] |
Matija Gogala and Tomi Trilar |
2002 |
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180-181 |
Digital Techniques in Research on Insect Vibrational Songs [abstract] |
Matija Gogala |
1992 |
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74-75 |
The shape of sound: elliptic Fourier descriptors (EFD) discriminate the echolocation calls of Myotis bats (M. daubentonii, M. nattereri & M. mystacinus) |
Mathieu Lundy, Emma Teeling, Emma Boston, David Scott, Daniel Buckley, Paulo Prodohl, Ferdia Marnell & Ian Montgomery |
2011 |
2 |
101-116 |
Tradition vs. innovation: comparing bioacoustics and mist-net results to bat sampling |
Matheus Camargo Silva Mancini, Frederico Hintze, Rafael de Souza Laurindo, Rodrigo de Macêdo Mello & Renato Gregorin |
2022 |
5 |
575-593 |
The Song Overlap Null model Generator (SONG): a new tool for distinguishing between random and non-random song overlap |
Masco, Christina; Allesina, Stefano; Mennill, Daniel; Pruett-Jones, Stephen |
2016 |
1 |
29-40 |
Vocalizations of the Ryukyu Scops Owl: individually recognisable and stable |
Masaoki Takagi |
2020 |
1 |
28-44 |
Detection rates of wild harbour porpoises and bottlenose dolphins using static acoustic click loggers vary with depth |
Marta Sostres Alonso & Hanna K. Nuuttila |
2015 |
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101-110 |
Acoustic tracking of Homarus gammarus inside the Natural Marine Reserve of Miramare: preliminary results [abstract] |
Marta Picciulin, Marco Costantini, M. Spoto & Enrico A. Ferreto |
2002 |
2 |
205 |
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 |
Discriminating Between Fish Sounds - a Wavelet Approach |
Mark Wood, Licia Casaretto, Graham Horgan and Anthony D Hawkin |
2002 |
2-3 |
337-339 |
Characterization and classification method of burst pulses produced by Guiana dolphins (Sotalia guianensis) |
Mariana Barbosa, Lis Bittencourt, Tatiana Lemos Bisi, José Lailson-Brito & Alexandre F. Azevedo |
2022 |
1 |
69-80 |
Application of entropy to Rufous-bellied Thrush song [abstract] |
Maria Luisa da Silva |
2002 |
2 |
176-177 |
Small programs based on temporal aspects of birdsong [abstract] |
Margaret Rebbeck |
2002 |
2 |
178-179 |
Assessing the effect of sound file compression and background noise on measures of acoustic signal structure |
Marcelo Araya-Salas, Grace Smith-Vidaurre & Michael Webster |
2019 |
1 |
57-73 |