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The University of Southampton
Engineering

Designing better hearing aids using brain-inspired speech enhance

Published: 8 March 2013

New research is aiming to produce hearing aids which can distinguish better between speech and background noise and benefit the lives of the six million people in the UK with hearing impairments.

Conventional hearing aids amplify both speech and noise indiscriminately so they don't make it easy to distinguish meaningful signals, such as speech, from background noise.

To overcome this barrier, researchers from the Universities of Southampton and Cambridge will use knowledge generated from neuronal brainstem recordings to design novel signal processing strategies. By designing this physiological-based algorithm, which mimics how our brain hears sound, the team will be able to identify how individual neurons in the brain stem respond to sound and distinguish meaningful signals from noise.

This ‘sparse coding' identification will make it possible for the scientists to reduce levels of noise while increasing speech intelligibility.

Dr Stefan Bleeck, from the Institute of Sound and Vibration Research (ISVR) at the University of Southampton, says: "Our central hypothesis is that the brain uses sparse coding when distinguishing meaningful signals from noise and it uses a dynamic dictionary for sound representation. Neurons adapt their response because they have a limited dynamic rate which they constantly optimise in response to noise in order to reduce redundancy and to maximise the information flow.

"By investigating this coding mechanism in individual neurons, it will allow us to develop novel signal-processing algorithms to select the parts that code speech and the ones that code unwanted noise. We will then be able to resynthesize sound in hearing aids with reduced noise, but with quality intact, to enhance speech intelligibility."

Dr Bleeck has received funding from EPSRC - Healthcare Technology Challenges for Engineering to undertake this research with ISVR colleagues Dr Matthew Wright and Thomas Blumensath, and Dr Ian Winter of the University of Cambridge's Department of Physiology.

Dr Bleeck adds: "We expect to see direct applications of our work to be implemented in hearing aids within the next five years. Some of the biggest companies in the world in their field have demonstrated their interest, support and the confidence toward this approach."

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Notes for editors

The University of Southampton is a leading UK teaching and research institution with a global reputation for leading-edge research and scholarship across a wide range of subjects in engineering, science, social sciences, health and humanities.

With over 23,000 students, around 5000 staff, and an annual turnover well in excess of £435 million, the University of Southampton is acknowledged as one of the country's top institutions for engineering, computer science and medicine. We combine academic excellence with an innovative and entrepreneurial approach to research, supporting a culture that engages and challenges students and staff in their pursuit of learning.

The University is also home to a number of world-leading research centres including the Institute of Sound and Vibration Research, the Optoelectronics Research Centre, the Institute for Life Sciences, the Web Science Trust and Doctoral training Centre, the Centre for the Developmental Origins of Health and Disease, the Southampton Statistical Sciences Research Institute and is a partner of the National Oceanography Centre at the Southampton waterfront campus.

For further information contact:

Glenn Harris, Media Relations, University of Southampton, Tel: 023 8059 3212, email: G.Harris@soton.ac.uk

www.soton.ac.uk/mediacentre/

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