May 10, 2021 · In conclusion, our model demonstrates that active head rolls enhance the performance of the self-calibrating model of sonar localization.
May 10, 2021 · We propose an echolocation model with multi-axis head rotation to investigate the effect of active head roll movements on sound localization performance.
The model neural representations are obtained using six GASSOM units (GASSOM1−6), which encode the received auditory signals at each combination of two tune ...
May 10, 2021 · We propose an echolocation model with multi-axis head rotation to investigate the effect of active head roll movements on sound localization performance.
Here, we propose an echolocation model with multi-axis head rotation to investigate the effect of active head roll movements on sound localization performance.
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Active head rolls enhance sonar-based auditory localization performance. Overview of attention for article published in PLoS Computational Biology, May 2021.
This is the project folder for the journal articel "Active head rolls enhance sonar-based auditory localization performance" - HKUST-NISL/Echolocation-AEC.
Active head rolls enhance sonar-based auditory localization performance. Overview of attention for article published in PLoS Computational Biology, May 2021.
... enhances acoustic cues for auditory localization in echolocating bats. ... Active control of acoustic field-of-view in a biosonar system, PLoS Biology ...
Usage Metrics of. Active head rolls enhance sonar-based auditory localization performance. Author(s): Wijesinghe, Lakshitha Prabath ; Wohlgemuth, Melville J ...