Ultraleap and Ïã¸ÛÁùºÏ²ÊÖÐÌØÍø Computer Science to create Distributed and Interactive touchless applications
1 April 2021
Ïã¸ÛÁùºÏ²ÊÖÐÌØÍø Computer Science is pleased to announce a collaborative project with Ultraleap.
The project aims to build on the UK’s world-leading role in the creation of interactive applications, created through the manipulation of acoustic waves by a computer, that allow you to ‘feel’ virtual objects.
For example, is currently combining hand-tracking and ultrasonic mid-air haptic feedback solutions for applications ranging from VR training simulators and interfaces in cars and other vehicles, to gaming machines and digital signage.
Similarly, the Multi-sensory devices group within Ïã¸ÛÁùºÏ²ÊÖÐÌØÍø Computer Science, led by and including Dr. , and is leading the way in creating that use levitation techniques based on the same technology championed by Ultraleap.
A significant constraint to scaling these solutions has been our reliance on a physical device that has a large footprint. While each application requires a custom device, to date there is no simple way to create such custom hardware; we have so far relied on a one size fits all approach.
(Ultraleap Lead):
Inspired by current 5G and 6G innovations found in wireless communication, in this project we will create a swarm of small and cost-effective devices that can coordinate and self-organize. Through these swarms we will offer scalable and customizable solutions that become cost effective for many applications.
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Prof. Subramanian:
“ÌýWe are a diverse, energetic and passionate team who are very excited about this project. This partnership will make a real impact not only for the company involved but for UK as a whole. We want to mobilise the innovation potential all around us in the UK; and make UK a very exciting place for disruptive innovation in spatial interactions and the creative sector
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The project would have a wide range of potential uses, from VR training simulators and interfaces in cars and other vehicles, to gaming machines and digital signage.ÌýThese could be used in vehicles to reduce distraction when drivers need take their eyes off the road to use a touchscreen. Instead, mid-air haptics would enable the controls to find the driver, who could hold their hand out and feel the buttons, dials, switches to change the audio or climate control settings, answer a phone call or check the navigation
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Further Reading
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Multi-Sensory Devices website: /computer-science/research/research-groups/multi-sensory-device
Ultraleap website: