Investigating the Effects of Noise on a Cell-to-Cell Communication Mechanism for Structure Regeneration. Ferreira, G. B. S., Scheutz, M., & Levin, M. In Proceedings of 14th European Conference on Artificial Life, 2017. bibtex @InProceedings{ferreiraetal17ecal,
author={Giordano B. S. Ferreira and Matthias Scheutz and Michael Levin},
title={Investigating the Effects of Noise on a Cell-to-Cell Communication Mechanism for Structure Regeneration},
booktitle={Proceedings of 14th European Conference on Artificial Life},
year={2017},
link={https://hrilab.tufts.edu/publications/ferreiraetal17ecal.pdf},
projects={abm},
topics={cells,comm},
image={},
synopsis={We changed our previous model of dynamic morphology discovery and repair to account for noise on cell-cell communication. We verified that the original model was not reliable against noise, we then proposed a simple mechanism by which cells needed confirmation from several packets in order to divide and position a cell in a missing location. The results showed that this activation mechanism led the model to fully regenerate a simulated worm even when there was noise on the direction of the messages.},
presentation={https://hrilab.tufts.edu/publications/ferreiraetal17ecal-slides.pdf},
}
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