Introducing Simulated Stem Cells into a Bio-Inspired Cell-Cell Communication Mechanism for Structure Regeneration. Ferreira, G. B. S., Scheutz, M., & Levin, M. In Proceedings of the 2017 IEEE Symposium Series on Computational Intelligence (SSCI), 2017. bibtex @InProceedings{ferreiraetal17ieeealife,
author={Giordano B. S. Ferreira and Matthias Scheutz and Michael Levin},
title={Introducing Simulated Stem Cells into a Bio-Inspired Cell-Cell Communication Mechanism for Structure Regeneration},
booktitle={Proceedings of the 2017 IEEE Symposium Series on Computational Intelligence (SSCI)},
year={2017},
link={https://hrilab.tufts.edu/publications/ferreiraetal17ieeealife.pdf},
projects={abm},
topics={cells,comm},
synopsis={Here we include simulated stem cells in a previous mechanism of dynamic morphology discovery and regeneration. We hypothesize that only these cells generate new morphology messages while differentiated cells only relay those messages. We showed that a ratio as small as 10\% of stem cells was sufficient for fully regenerate a planarian-like shape from an injury that removed 50\% of the worm.},
presentation={https://hrilab.tufts.edu/publications/ferreiraetal17ieeealife-slides.pdf},
}
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