A musical instrument using in vitro neural networks.

Authors

Eduardo R. Miranda, School of Art, Design and Architecture
Slawomir J. Nasuto, University of Reading
Anna R. Troisi, University of Plymouth
Julia H. Downes, University of Reading
Antonino Chiaramonte, Interdisciplinary Centre for Music Research, University of Plymouth, Plymouth, UK
Matthew C. Spencer, University of Reading
Mark W. Hammond, School of Engineering, Computing and Mathematics
Dimitris Xydas, University of Reading
Benjamin J. Whalley
Victor M. Becerra, University of Reading
Kevin Warwick, University of Reading

ORCID

• Eduardo R. Miranda: 0000-0002-8306-9585
• Benjamin J. Whalley: 0000-0002-8994-6091

Abstract

This paper presents a musical instrument, which uses in vitro neuronal networks to synthesise sounds. Cultures of dissociated neurons are grown on a dish with an embedded rectangular array of electrodes (MEA). Isolated neurons reconnect with one another via an extensive network of synaptically connected projections to form a dense monolayer of neurons. Cultures are provided with stimulation, which influences their activity, and can modify the culture’s state. The core of the sound synthesis engine of our musical instrument is a monophonic additive synthesizer using sinusoidal oscillators. We devised a method to generate frequencies, phase and amplitude values for the oscillators from the electrical activity of the neurons.

Publication Date

2011-01-01

Publication Title

International Computer Music Conference, ICMC Proceedings

ISSN

2223-3881

First Page

567

Last Page

570

Recommended Citation

Miranda, E., Nasuto, S., Troisi, A., Downes, J., Chiaramonte, A., Spencer, M., Hammond, M., Xydas, D., Whalley, B., Becerra, V., & Warwick, K. (2011) 'A musical instrument using in vitro neural networks.', International Computer Music Conference, ICMC Proceedings, , pp. 567-570. Retrieved from https://pearl.plymouth.ac.uk/ada-research/620