Summary

Research summary

  • January 2018 to September 2024

Most mammals have whiskers - specialised touch-sensitive hairs that guide orientation, movement and foraging - but numbers, arrangements, shapes and lengths differ across species.

Our research explores the effect of whisker shape on whisker mechanics using novel mathematical algorithms.

Differences in whisker shape are likely to affect the mechanics of the whisker and the sensations within the follicle. Sensations the brain uses to identify what the whiskers have contacted and where it is.

We test our theories of whisker shape and positioning on robot platforms and in behaving animals - allowing us to make recommendations for tactile robot sensor design and control.

This has applications for robotic exploration in environments where visual information is either unreliable or restricted, such as marine archaeology, environmental monitoring, and search and rescue operations.

Our research also helps to:

  • improve our understanding of mammalian sensory biology

  • help inform sensory enrichment protocols in captive mammals

We work closely with zoos and aquaria to develop sensory enrichment devices that encourage natural whisker positioning and movements in captive mammals.

And we believe that whisker arrangement can be a useful tool for species and individual identification.

Research outputs

Academic papers

Articles and podcasts

Funding

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