Transfer Entropy Analysis of Interactions between Bats Using Position and Echolocation Data by Irena Shaffer, Nicole Abaid

“…Bats are unique among these animals in that they use the active sensing mechanism of echolocation as their primary means of navigation. …”
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Bat Diversity in Imbak Canyon Conservation Area: Note on their Echolocation Calls and Ectoparasites by Juliana Senawi, Azniza Mahyudin, Ummu Safiyah Daud, Amirrah Amat, Simon Lagundi, Eric Gondilang, Erwan Sutail, Saiful Narimin, Isham Azhar

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Listening in the dark : the acoustic orientation of bats and men/ by Griffin, Donald R. (Donald Redfield), 1915-

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What determines the information update rate in echolocating bats by Mor Taub, Aya Goldshtein, Arjan Boonman, Ofri Eitan, Edward Hurme, Stefan Greif, Yossi Yovel

“…The acquisition rate of most sensory systems is fixed and has been optimized by evolution to the needs of the animal. Echolocating bats have the ability to adjust their sensory update rate which is determined by the intervals between emissions - the inter-pulse intervals (IPI). …”
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Correlated evolution of wing morphology and echolocation calls in bats by Wenyu Zou, Haiying Liang, Pan Wu, Bo Luo, Bo Luo, Daying Zhou, Wenqin Liu, Jiashu Wu, Linjie Fang, Yudie Lei, Jiang Feng, Jiang Feng

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Untargeted metabolomics of the cochleae from two laryngeally echolocating bats by Hui Wang, Ruyi Sun, Ningning Xu, Xue Wang, Mingyue Bao, Xin Li, Jiqian Li, Aiqing Lin, Jiang Feng, Jiang Feng

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Echolocation of bats (Chiroptera Blumenbach, 1779) as an element of their ecological plasticity by E. M. Shchelkanov, S. S. Ukolov, M. N. Dunaeva, T. V. Moskvina, I. A. Popov, Yu. A. Belov, N. N. Kakareka, A. V. Ganzevich, V. F. Tolkach, Yu. G. Volkov, I. V. Galkina, M. Yu. Shchelkanov

“…The paper discusses: the place of bats among other taxonomic groups of animals that have the ability of echolocation; the history of the discovery of "ear vision" in bats by L. …”
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An Efficient Neural Network Design Incorporating Autoencoders for the Classification of Bat Echolocation Sounds by Sercan Alipek, Moritz Maelzer, Yannick Paumen, Horst Schauer-Weisshahn, Jochen Moll

“…Automated acoustic monitoring of bat activity is therefore an effective and necessary approach for bat conservation, especially in wind energy applications, where flying animals like bats and birds have high fatality rates. …”
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Characterization of microRNA and gene expression in the cochlea of an echolocating bat (Rhinolophus affinis) by Qianqian Li, Wenli Chen, Xiuguang Mao

“…However, little is known about their roles in generating novel phenotypes and phenotypic variation during the course of animal evolution. Here, we, for the first time, characterized the miRNAs of the cochlea in an echolocating bat (Rhinolophus affinis). …”
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Detection of human echolocator mouth-click signal using bio-inspired processing by Saleh, Nur Luqman

“…Echolocation is a process to perceive the surrounding by analysing reflected echo from space via an active emission signal often utilize by animals such as bat, dolphin, and whale as their main sensing modality mainly for navigation purposes. …”
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Greater Horseshoe Bats Recognize the Sex and Individual Identity of Conspecifics from Their Echolocation Calls by Xiao Tan, Aiqing Lin, Keping Sun, Longru Jin, Jiang Feng

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Spatial and temporal resource partitioning in a mixed‐species colony of avian echolocators by Keren R. Sadanandan, Hui Zhen Tan, Hong Yao Lim, Yi Gain Tan, Grace Lee, Lena Chan, Yifan Pei, Frank E. Rheindt, Maude W. Baldwin

“…Our study on the breeding biology of these echolocating cave‐dwelling birds provides an example of spatial and temporal strategies that animals employ to partition resources within a confined habitat.…”
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Discriminating and classifying odontocete echolocation clicks in the Hawaiian Islands using machine learning methods by Morgan A. Ziegenhorn, Kaitlin E. Frasier, John A. Hildebrand, Erin M. Oleson, Robin W. Baird, Sean M. Wiggins, Simone Baumann-Pickering

“…Passive acoustic monitoring (PAM) has proven a powerful tool for the study of marine mammals, allowing for documentation of biologically relevant factors such as movement patterns or animal behaviors while remaining largely non-invasive and cost effective. …”
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Discriminating and classifying odontocete echolocation clicks in the Hawaiian Islands using machine learning methods. by Morgan A Ziegenhorn, Kaitlin E Frasier, John A Hildebrand, Erin M Oleson, Robin W Baird, Sean M Wiggins, Simone Baumann-Pickering

“…Passive acoustic monitoring (PAM) has proven a powerful tool for the study of marine mammals, allowing for documentation of biologically relevant factors such as movement patterns or animal behaviors while remaining largely non-invasive and cost effective. …”
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Echolocation repetition rate as a proxy to monitor population structure and dynamics of sperm whales by Alba Solsona‐Berga, Natalie Posdaljian, John A. Hildebrand, Simone Baumann‐Pickering

“…We identified three classes: large animals between 12–15 m (ICI between 0.72 and 1 sec), presumed to correspond to adult males, and small animals below 12 m (ICI between 0.44 and 0.64 sec) likely pertaining to social groups (mixed groups with adult females and their offspring), and the third class with mid‐sized animals (ICI between 0.64 and 0.83 sec) believed to contain adult females or sub‐adult males. …”
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Adaptive Echolocation and Flight Behaviors in Bats Can Inspire Technology Innovations for Sonar Tracking and Interception by Clarice Anna Diebold, Angeles Salles, Cynthia F. Moss

“…Importantly, bats exhibit rapid adaptations in flight trajectory, sonar beam aim, and echolocation signal design, which appear to be key to the success of these animals in a variety of tasks. …”
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Echolocation-based foraging by harbor porpoises and sperm whales, including effects of noise and acoustic propagation by DeRuiter, Stacy L

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Breaking the trade-off: rainforest bats maximize bandwidth and repetition rate of echolocation calls as they approach prey by Hashim, Rosli, Siemers, B.M., Schmieder, D.A., Kingston, T.

“…Buzz calls of Kerivoula pellucida had mean bandwidths of 170 kHz and attained maximum starting frequencies of 250 kHz which makes them the most broadband and most highly pitched tonal animal vocalization known to date. We suggest that the extreme vocal performance of the Kerivoulinae and Murininae evolved as an adaptation to echolocating and tracking arthropods in the dense rainforest understorey.…”

Echolocating bats prefer a high risk-high gain foraging strategy to increase prey profitability by Laura Stidsholt, Antoniya Hubancheva, Stefan Greif, Holger R Goerlitz, Mark Johnson, Yossi Yovel, Peter T Madsen

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Automated acoustic identification of echolocating bats by machine learning : application for biodiversity monitoring for the Australia cotton industry by Chan, Jaslyn Jia Hui

“…Bats possess ideal bioindicator qualities and echolocate to orientate themselves and locate objects. …”
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