Ocean acoustic observatory for passive monitoring of the ocean [abstract] |
Khosrow Lashkari and S. Lowder |
1998 |
3 |
221-222 |
Nonresonant stridulation - a challenge for digital signal processing [abstract] |
Gunther Tschuch & Denis J. Brothers |
2002 |
2 |
181 |
Non-invasive acoustic detection of wolves |
Stefan M. Suter, Marta Giordano, Silvia Nietlispach, Marco Apollonio & Daniela Passilongo |
2017 |
3 |
237-248 |
Noise affects porpoise click detections – the magnitude of the effect depends on logger type and detection filter settings |
Karin Tubbert Clausen, Jakob Tougaard, Jacob Carstensen, Matthieu Delefosse & Jonas Teilmann |
2019 |
5 |
443-458 |
New technologies for marine mammal acoustic data capture [abstract] |
E. J. Harland |
1998 |
3 |
221 |
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 |
My experience of digital recording |
Gibson, D. |
1988 |
1 |
57-60 |
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 |
Monitoring biodiversity through natural sound diversity [abstract] |
Teruyo Oba |
1996 |
4 |
303 |
Modelling interspecific differences in chickadee notes with a multiplicative AM model [abstract] |
Arch McCallum |
2002 |
1 |
88-89 |
Minidisc recorders versus audiocassette recorders: a performance comparison |
D. M. Logue, D. E. Gammon & M. C. Baker |
2005 |
1 |
15-33 |
Micro-controller based deterrents: acoustic devices to reduce harbour porpoise Phocoena phoeoena incidental catch in gillnets [abstract] |
D. Newborough, A. D. Goodson and B. Woodward |
1998 |
3 |
232-233 |
Metrics |
Charles R. Greene, Jr |
2008 |
1-3 |
116-118 |
Methods of frequency analysis of a complex mammalian vocalisation |
S. K. Darden, S. B. Pedersen & T.Dabelsteen |
2003 |
3 |
247-263 |
Methodological considerations on the acoustic signal analysis for two species of bats (Chiroptera, Vespertilionidae) [abstract] |
C. Zmarich, E. Vernier and F. Ferrero |
1997 |
3-4 |
275-276 |
Measuring the sound pressure level of the song of the screaming piha Lipaugus vociferans: one of the loudest birds in the world? |
E. Nemeth |
2004 |
3 |
225-228 |
Measuring acoustic complexity in continuously varying signals: how complex is a wolf howl? |
Arik Kershenbaum, Éloïse C. Déaux, Bilal Habib, Brian Mitchell, Vicente Palacios, Holly Root-Gutteridge & Sara Waller |
2018 |
3 |
215-229 |
Low-cost real-time spectrographic analysis of sounds [abstract] |
Gianni Pavan |
1994 |
1 |
81 |
Low-cost acoustic design of a bat test room |
R. Correia, C. Faneca, D. Albuquerque, J. Vieira, C. Bastos, C. Fonseca & M.J. Ramos Pereira |
2015 |
1 |
81-87 |
Low cost tools for sound recording and analysis: guidelines for a good choice [abstract] |
Gianni Pavan, Michele Manghi, Claudio Fossati & Marco Priano |
2002 |
2 |
205-206 |
Localising bitterns Botaurus stellaris with an array of non-linked microphones |
M. Wahlberg, J. Tougaard, B. Møhl |
2003 |
3 |
233-245 |
Is fidelity futile? The "true" signal is illusory, especially with ultrasound |
Pye, J.D. |
1993 |
4 |
271-286 |
Interactive deterrent devices for fishing nets, designed to reduce small cetacean bycatch [abstract] |
A. D. Goodson, D. Newborough and B. Woodward |
1997 |
3-4 |
272-273 |
Innovative Uses of Fisheries Acoustics in the Northwest Atlantic |
J. Michael Jech |
2002 |
2-3 |
277-280 |
INFN NEMO Test Platform: an opportunity for a long-term study of ocean noise and biological sounds in the Mediterranean Sea [abstract] |
Gianni Pavan, G. Riccobene, G. Cosentino, F. Speziale & C. Distefano |
2002 |
2 |
184-185 |
Individually distinctive bittern booms: potential as a census tool |
McGregor, P.K. & Byle, P. |
1992 |
2 |
93-109 |
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 |
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 |
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 |
Improved measurement algorithms for primate vocal communication research, with application to Lemur catta [abstract] |
Janzen, R E & Bolt, L M |
2012 |
1 |
38-39 |
Identifying individual wild Eastern grey wolves (Canis lupus lycaon) using fundamental frequency and amplitude of howls |
Holly Root-Gutteridge, Martin Bencsik, Manfred Chebli, Louise K. Gentle, Christopher Terrell-Nield, Alexandra Bourit and Richard W. Yarnell |
2014 |
1 |
55-66 |
Identification of individual Eastern Screech-Owls Megascops asio via vocalization analysis |
Christopher M. Nagy and Robert F. Rockwell |
2012 |
2 |
127-140 |
Identification of British bat species by multivariate analysis of echolocation call parameters |
N. Vaughan, G. Jones & S. Harris |
1997 |
3 |
189-207 |
Hydroacoustic Fish Assessment in Shallow Water Environments |
Frank Reier Knudsen |
2002 |
2-3 |
280-283 |
Hidden Markov model for detection of mysticetes' vocalisations based on principal component analysis |
Olayinka O. Ogundile, Oluwaseyi P. Babalola, Seun G. Odeyemi & Kazeem I. Rufai |
2022 |
6 |
710-738 |
Handling dolphin detections from C-PODs, with the development of acoustic parameters for verification and the exploration of species identification possibilities. |
James R. Robbins, Anja Brandecker, Michelle Cronin, Mark Jessopp, Rob McAllen & Ross Culloch |
2016 |
2 |
99-110 |
Habitat acoustics of a neotropical lowland rainforest |
N. Ellinger & W. Hödl |
2003 |
3 |
297-321 |
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 |
Field tests of small autonomous recording units: an evaluation of in-person versus automated point counts and a comparison of recording quality |
D. J. Mennill |
2024 |
2 |
157-177 |
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 |
Evaluating factors affecting species detection using passive acoustic monitoring in neotropical forests: a playback experiment |
Anja Hutschenreiter, J. Roberto Sosa-López, Fernando González-García & Filippo Aureli |
2023 |
6 |
660-678 |
Estimating repertoire size in a songbird: A comparison of three techniques |
Alexander J. Harris, David R. Wilson, Brendan A. Graham & Daniel J. Mennill |
2016 |
3 |
211-224 |
Estimating density of calling male Eleutherodactylus coqui in Hawaii from audio recordings of the nighttime frog chorus |
Francis L. Benevides Jr., William J. Mautz, Christopher J. Jacobsen & Arnold H. Hara |
2019 |
2 |
101-114 |
Equipment for recording the sounds of birds and other animals |
R. Ranft |
1991 |
4 |
331-334 |
Equipment & techniques for the study of ultrasound in air |
J. D. Pye |
1992 |
1 |
77-88 |
Entropy rate as a measure of animal vocal complexity |
Arik Kershenbaum |
2014 |
3 |
195-208 |
Elaboration of the NRC Population Consequences of Acoustic Disturbance (PCAD) Model |
Douglas Wartzok and Peter Tyack |
2008 |
1-3 |
286-288 |
Efficient quality assurance and quality control for passive acoustic monitoring data: reducing and documenting false-positive and false-negative errors |
Janine M. McManus, Barry G. Robinson & Steven L. Van Wilgenburg |
2024 |
2 |
178-202 |
Echolocation signals of bats – a retrospective |
David Pye |
2021 |
4 |
487-497 |
Dual channel real-time analysis on a PC [abstract] |
G. Pavan & M. Manghi |
1996 |
4 |
304 |