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Synthetic Morphology: probing the creativity of cellular collective intelligence
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Classroom Contents
Plasticity Without Genetic Change - Bioelectric Embryos & Synthetic Proto-Organisms
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- 1 Intro
- 2 Knowledge Gaps: prediction
- 3 The State of the Art
- 4 Where is Anatomical Pattern Specified?
- 5 Same anatomy, despite perturbations
- 6 Somatic electrical activity is the cognitive medium of morphogenetic decision-making
- 7 Writing High-level Setpoints into Cellular CI
- 8 Endogenous membrane voltage pattern is crucial for Xenopus embryonic brain patterning
- 9 Re-writing Target Morphology
- 10 Bioelectrically-Encoded Pattern Memory
- 11 An organism's genome sets its Target Morphology, doesn't it?
- 12 Developing Quantitative, Predictive Multiscale
- 13 Machine Learning for Model Discovery
- 14 Cell Collectives can pursue Target Morphologies other than their Genomic Default
- 15 Biomedical Applications
- 16 Synthetic Morphology: probing the creativity of cellular collective intelligence
- 17 Xenobots - a novel proto-organism
