Results 171 to 180 of about 19,489 (210)
Representation of vocalizations in the frontal auditory field and the dorsal auditory cortex of bats. [PDF]
Ann N Y Acad SciHoerpel SG, Vernes SC, Firzlaff U.
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Acoustic analysis of bottlenose dolphin vocalizations for behavioral classification in controlled settings. [PDF]
PLoS OneScrepanti L +6 more
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Classification of biomedical lung cancer images using optimized binary bat technique by constructing oblique decision trees. [PDF]
Sci RepAswal S, Ahuja NJ, Mehra R.
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Advancing bat monitoring: Assessing the impact of unmanned aerial systems on bat activity. [PDF]
PLoS OneRoswag M +4 more
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Resonance, 1996
Bats are capable of avoiding obstacles that they encounter, even in complete darkness. This is because they emit ultrasound (high frequency sound) and analyse the echo produced when the sound hits objects on their path. This article describes the hunting flight of bats and how echolocation is useful in prey capture.
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Bats are capable of avoiding obstacles that they encounter, even in complete darkness. This is because they emit ultrasound (high frequency sound) and analyse the echo produced when the sound hits objects on their path. This article describes the hunting flight of bats and how echolocation is useful in prey capture.
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Nature, 2010
Echolocation of bats is a fascinating topic with an ongoing controversy regarding the signal processing that bats perform on the echo. Veselka et al. found that bats that use the larynx for producing the echolocating ultrasound have a stylohyal bone that connects the larynx to the auditory bulla. I propose that the stylohyal bone is used for heterodyne
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Echolocation of bats is a fascinating topic with an ongoing controversy regarding the signal processing that bats perform on the echo. Veselka et al. found that bats that use the larynx for producing the echolocating ultrasound have a stylohyal bone that connects the larynx to the auditory bulla. I propose that the stylohyal bone is used for heterodyne
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Current Opinion in Neurobiology, 1993
Abstract In bat audition, major advances have been made concerning the frequency tuning in the bats' cochlea, cortical maps and the related subcortical echo information processing, and the perceptual mechanisms creating auditory images.
G, Neuweiler, S, Schmidt
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Abstract In bat audition, major advances have been made concerning the frequency tuning in the bats' cochlea, cortical maps and the related subcortical echo information processing, and the perceptual mechanisms creating auditory images.
G, Neuweiler, S, Schmidt
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Why pinnipeds don’t echolocate
The Journal of the Acoustical Society of America, 2000Odontocete cetaceans have evolved a highly advanced system of active biosonar. It has been hypothesized that other groups of marine animals, such as the pinnipeds, possess analogous sound production, reception, and processing mechanisms that allow for underwater orientation using active echolocation.
R J, Schusterman +4 more
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