The Sound of Small Brain Circuits: Plasticity and Synchronisation in the Neurogranular Sampler
Symposium:
- ISEA2011: 17th International Symposium on Electronic Art
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More presentations from ISEA2011:
Session Title:
- NeuroArts
Presentation Title:
- The Sound of Small Brain Circuits: Plasticity and Synchronisation in the Neurogranular Sampler
Presenter(s):
Venue(s):
Abstract:
Panel: NeuroArts
The Neurogranular Sampler is a software musical instrument designed by a collaborative team, which triggers grains of live sampled audio when any one of a network of artificial spiking neurons ‘fires’. The level of synchronisation in distributed systems is often controlled by the strength of interaction between the individual elements. If the elements are neurons in small brain circuits, the characteristic event is the ‘firing time’ of a particular neuron. The synchrony or decoupling of these characteristic events is controlled by modifications in the strength of the connections between neurons under the influence of spike timing dependent plasticity, which adapts the strengths of neuronal connections according to the relative firing times of connected neurons. In this paper we will show how we can ‘neuroengineer’ the collective firing behaviour of small networks of artificial neurons by exploiting spike timing dependent plasticity rules in a sonic context.
