News Release

Bats' flight technique could lead to better drones

Peer-Reviewed Publication

Lund University

Bat Flying in a Windtunnel

video: The video depicts a bat flying in a wind tunnel during simulation. The trained bats flew through thin smoke to reach a stick with food on it. Meanwhile the researchers aimed a laser beam at the smoke behind the bats and took pictures of the illuminated smoke particles. The researchers measured how the smoke moved to calculate the forces generated by each beat of the bats' wings. Learn more about the experiment in this video: https://www.youtube.com/watch?v=YhEkperhZMQ view more 

Credit: Lasse Jakobsen / Lund University

Long-eared bats are assisted in flight by their ears and body, according to a study by researchers at Lund University in Sweden. The recent findings improve researchers' understanding of the bats' flying technique and could be significant for the future development of drones, among other things.

Contrary to what researchers previously assumed, Christoffer Johansson Westheim and his colleagues at Lund University show that long-eared bats are helped in flight by their large ears.

"We show how the air behind the body of a long-eared bat accelerates downwards, which means that the body and ears provide lift. This distinguishes the long-eared bats from other species that have been studied and indicates that the large ears do not merely create strong resistance, but also assist the animal in staying aloft", says Christoffer Johansson Westheim.

The findings entail a greater understanding of the flight technique of bats. They also highlight the evolutionary conflict between flying as efficiently as possible and eco-locating, i.e. discovering objects by sending out soundwaves and perceiving the resulting echoes.

Another discovery made during the experiments and never previously described in research is how the bats generate forward motion when flying slowly. The forward motion is generated when the wings are held high and away from the body at the end of each beat.

"This specific way of generating power could lead to new aerodynamic control mechanisms for drones in the future, inspired by flying animals", says Christoffer Johansson Westheim.

The experiments were conducted in a wind tunnel in which trained bats flew through thin smoke to reach a stick with food on it. Meanwhile the researchers aimed a laser beam at the smoke behind the bats and took pictures of the illuminated smoke particles. The researchers measured how the smoke moved to calculate the forces generated by each beat of the bats' wings.

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Watch and feel free to embed short video interview with Christoffer Johansson: https://www.youtube.com/watch?v=YhEkperhZMQ

Article

Johansson C, et al (2016). Ear-body lift and a novel thrust generating mechanism revealed by the complex wake of brown long-eared bats (Plecotus auritus). Published in Scientific Reports.

For more information

Christoffer Johansson Westheim, senior lecturer
Lund University, Department of Biology
+46 46 222 49 55
christoffer.johansson@biol.lu.se


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