Cultured neural networks: spontaneous activity, bursts and learning capabilities

Wim Rutten

    Research output: Contribution to conferencePaper

    9 Downloads (Pure)

    Abstract

    Neuro-electronic interfacing operates at the crossing of neuroscience, tissue and cellular engineering, signal processing and micro(nano)fabrication. The aim is to engineer large-scale connections between the electronic and the neuronal world. For rehabilitation of sensory or neuromuscular functional deficits, for future brain-computer interfaces, to provide new tools to the brain researcher or to bring about-and understand - the process of learning in live, cultured neuronal networks.
    Original languageEnglish
    Number of pages1
    Publication statusPublished - 2005
    Event7th International Conference on Cellular Engineering, ICCE 2005 - Seoul, Korea, Republic of
    Duration: 6 Sep 20059 Sep 2005
    Conference number: 7

    Conference

    Conference7th International Conference on Cellular Engineering, ICCE 2005
    Abbreviated titleICCE
    CountryKorea, Republic of
    CitySeoul
    Period6/09/059/09/05

    Fingerprint

    Cell Engineering
    Brain-Computer Interfaces
    Tissue Engineering
    Neurosciences
    Rehabilitation
    Research Personnel
    Learning
    Brain

    Keywords

    • IR-76579
    • METIS-227801
    • EWI-19937

    Cite this

    Rutten, W. (2005). Cultured neural networks: spontaneous activity, bursts and learning capabilities. Paper presented at 7th International Conference on Cellular Engineering, ICCE 2005, Seoul, Korea, Republic of.
    Rutten, Wim. / Cultured neural networks : spontaneous activity, bursts and learning capabilities. Paper presented at 7th International Conference on Cellular Engineering, ICCE 2005, Seoul, Korea, Republic of.1 p.
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    abstract = "Neuro-electronic interfacing operates at the crossing of neuroscience, tissue and cellular engineering, signal processing and micro(nano)fabrication. The aim is to engineer large-scale connections between the electronic and the neuronal world. For rehabilitation of sensory or neuromuscular functional deficits, for future brain-computer interfaces, to provide new tools to the brain researcher or to bring about-and understand - the process of learning in live, cultured neuronal networks.",
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    Rutten, W 2005, 'Cultured neural networks: spontaneous activity, bursts and learning capabilities' Paper presented at 7th International Conference on Cellular Engineering, ICCE 2005, Seoul, Korea, Republic of, 6/09/05 - 9/09/05, .

    Cultured neural networks : spontaneous activity, bursts and learning capabilities. / Rutten, Wim.

    2005. Paper presented at 7th International Conference on Cellular Engineering, ICCE 2005, Seoul, Korea, Republic of.

    Research output: Contribution to conferencePaper

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    AB - Neuro-electronic interfacing operates at the crossing of neuroscience, tissue and cellular engineering, signal processing and micro(nano)fabrication. The aim is to engineer large-scale connections between the electronic and the neuronal world. For rehabilitation of sensory or neuromuscular functional deficits, for future brain-computer interfaces, to provide new tools to the brain researcher or to bring about-and understand - the process of learning in live, cultured neuronal networks.

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    Rutten W. Cultured neural networks: spontaneous activity, bursts and learning capabilities. 2005. Paper presented at 7th International Conference on Cellular Engineering, ICCE 2005, Seoul, Korea, Republic of.