Numerical study of lancet furrows dynamics behaviour in greater horseshoe bats

Abstract: The greater horseshoe bat (Rhinolophus ferrumequinum) emits biosonar pulses nasally. The nostril of bats has complicated noseleaf structures, which consists of lancet, anterior leaf, sella. For the three noseleaf parts, lancet is the only one that stays away from the nostril. In addition, lancet has several furrows on the surface. It is known that the furrows in static lancet possess frequency selection characteristics, however, the effects of furrows during the lancet deformation have yet to be investigated. … Show more

“…Compared to the human spatial localization, most bats of Microchiroptera can use sonar for navigation, localization, detection and preying. In the recent years, progress has been made on the effects of bats noseleaf and ear structures on the echolocation [3][4][5][6][7][8][9][10][11][12]. However, these work mostly dealt with the qualitative description of the effects of the structural change on the acoustic directivity pattern.…”

Investigation in scanning beampattern generated by resonance cavities

“…Compared to the human spatial localization, most bats of Microchiroptera can use sonar for navigation, localization, detection and preying. In the recent years, progress has been made on the effects of bats noseleaf and ear structures on the echolocation [3][4][5][6][7][8][9][10][11][12]. However, these work mostly dealt with the qualitative description of the effects of the structural change on the acoustic directivity pattern.…”

Investigation in scanning beampattern generated by resonance cavities

IVAS: Facilitating Safe and Comfortable Driving with Intelligent Vehicle Audio Systems