Abstract
Morphogenetic systems (M systems) have been recently introduced as a computational model aiming at a deeper understanding of morphogenetic phenomena such as growth, self-reproduction, homeostasis and self-healing of evolving systems. M systems hybridize principles common in membrane computing and abstract self-assembly. The model unfolds in a 3D (or generally, dD) space, growing structures that are self-assembled from generalized tiles using shape and location sensitive local rules. The environment provides mutually reacting atomic particles that contribute to growth control. Initial studies of M systems demonstrated their computational universality and efficiency, as well as their robustness to injuries through their self-healing capabilities. Here, we make a systematic comparison of their generativity power with Lindenmayer systems, the best known model of pattern and shape assembly.
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Acknowledgements
This work was supported by The Ministry of Education, Youth and Sports Of the Czech Republic from the National Programme of Sustainability (NPU II) project IT4Innovations Excellence in Science - LQ1602, and by the Silesian University in Opava under the Student Funding Scheme, project SGS/13/2016.
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Sosík, P., Smolka, V., Bradík, J., Garzon, M. (2019). Modeling Plant Development with M Systems. In: Hinze, T., Rozenberg, G., Salomaa, A., Zandron, C. (eds) Membrane Computing. CMC 2018. Lecture Notes in Computer Science(), vol 11399. Springer, Cham. https://doi.org/10.1007/978-3-030-12797-8_17
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