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Daniel Mange Towards Robust Bio-Inspired Circuits: The Embryonics Approach ECAL’99, Lausanne September 15, 1999
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Caenorhabditis Elegans 11 December 1998
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Caenorhabditis Elegans From S.F. Gilbert, Developmental Biology, Sinauer, 1991
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Multicellular Organization 959 somatic cells
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Cellular Division
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Cellular Differentiation Pharynx Intestine
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Embryonics: Why? Design of robust integrated circuits able to: self-repair (healing) self-repair (healing) self-replicate (cloning) self-replicate (cloning)
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Embryonics: How? Iterative electronic circuit based on 3 features: multicellular organization multicellular organization cellular division cellular division cellular differentiation
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Electronic Implementation
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Multicellular Organization
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Embryonics Landscape
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach StopWatch
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach StopWatch
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach StopWatch
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach StopWatch
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach StopWatch
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach StopWatch
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Cellular Differentiation
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Self-Replication
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Self-Replication
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Self-Repair
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach BioWatch
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach BioWatch
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Embryonics Landscape
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach MUXTREE Molecule
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Space Divider
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Space Divider
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Cellular Self-Replication
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Cellular Self-Repair
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Cellular Self-Repair
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach The MUXTREE Molecule
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Molecular Implementation
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Embryonics Landscape
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach Artificial Genome
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach The Future of Embryonics
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Daniel Mange ECAL’99: Sept. 15 Towards Robust Bio-Inspired Circuits: The Embryonics Approach
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