Bats exhibit remarkable sensory adaptations that enable them to navigate, forage and communicate in complex and cluttered environments. At the heart of their extraordinary capabilities lies ...

Neuroscientists at Goethe University, Frankfurt have discovered a feedback loop that modulates the receptivity of the auditory cortex to incoming acoustic signals when bats emit echolocation calls. In ...

Bats are nocturnal hunters and use echolocation to orientate themselves by emitting high-frequency ultrasonic sounds in rapid succession and evaluating the calls’ reflections. Yet, they have retained ...

Vision is the predominant sense in humans, and we heavily rely on our sight for understanding our surroundings. As a result, image recognition-based technologies have been rapidly developed and are ...

P. kuhlii above a spectrogram of its echolocation sequence. Source: Eran Amichai, used with permission. Many bats navigate using echolocation—emitting high-frequency sound pulses and analyzing the ...

Blind as a bat? Hardly. All bats can see to some degree, and certain species possess prominent eyes and a keen sense of vision. Take the Egyptian fruit bat (Rousettus aegyptiacus). This species is ...

In recent years, the fascinating world of bat echolocation has captured the attention of scientists and technologists alike. By decoding these natural sonar abilities, AI researchers are unlocking new ...

Most bats use echolocation to navigate and hunt, but some use their ears for another trick: eavesdropping. Hunt like a bat! How baby bats learn to eavesdrop on their next meal There are over 1400 ...

Neuroscientists have discovered a feedback loop that modulates the receptivity of the auditory cortex to incoming acoustic signals when bats emit echolocation calls. The researchers show that ...