Biologists and engineers have joined forces to build a new robot bat that’s helping us understand how real bats use ...

A long-standing mystery about how wild bats navigate complex environments in complete darkness with remarkable precision, has ...

Researchers at the UC Davis Center for Neuroscience mapped the brain regions controlling movements in Egyptian fruit bats. Large regions of motor cortex are dedicated to the tongue, which makes sonar ...

(CN) — Bats might not lead the most exciting lives, but they do have one real-life superpower that aids in their evening hunts for insect dinners: echolocation. In a new study published by the ...

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 ...

Bats have an "ear" for flying in the dark because of a remarkable auditory talent that allows them to determine their physical environment by listening to echoes. But an Ohio University neurobiology ...

Why do researchers think big-eared bats can find hidden insects without having to scrutinize every leaf in a forest?Their ...

Bat researcher Aditya Srinivasulu on his new study cataloguing bat echolocation data, how these flying mammals are important ...

A new study shows how the brains of Egyptian fruit bats are highly specialized for echolocation and flight, with motor areas of the cerebral cortex that are dedicated to sonar production and wing ...