Monte Carlo Physarum Machine: Characteristics of Pattern Formation in Continuous Stochastic Transport Networks-Reference-Cited by-同舟云学术

Monte Carlo Physarum Machine: Characteristics of Pattern Formation in Continuous Stochastic Transport Networks

Published:2021-12-07 Issue: Volume: Page:1-36
ISSN:1064-5462
Container-title:Artificial Life
language:en
Short-container-title:

Author:

Elek Oskar¹,Burchett Joseph N.²,Prochaska J. Xavier³⁴,Forbes Angus G.⁵

Affiliation:

1. University of California, Santa Cruz, Computational Media, Creative Coding Lab. oelek@ucsc.edu

2. New Mexico State University, Department of Astronomy. jnb@nmsu.edu

3. University of California, Santa Cruz, Astronomy and Astrophysics. jxp@ucsc.edu

4. The University of Tokyo, Kavli Institute for the Physics and Mathematics of the Universe

5. University of California, Santa Cruz, Computational Media, Creative Coding Lab. angus@ucsc.edu

Abstract

Abstract We present Monte Carlo Physarum Machine (MCPM): a computational model suitable for reconstructing continuous transport networks from sparse 2D and 3D data. MCPM is a probabilistic generalization of Jones's (2010) agent-based model for simulating the growth of Physarum polycephalum (slime mold). We compare MCPM to Jones's work on theoretical grounds, and describe a task-specific variant designed for reconstructing the large-scale distribution of gas and dark matter in the Universe known as the cosmic web. To analyze the new model, we first explore MCPM's self-patterning behavior, showing a wide range of continuous network-like morphologies—called polyphorms—that the model produces from geometrically intuitive parameters. Applying MCPM to both simulated and observational cosmological data sets, we then evaluate its ability to produce consistent 3D density maps of the cosmic web. Finally, we examine other possible tasks where MCPM could be useful, along with several examples of fitting to domain-specific data as proofs of concept.

Publisher

MIT Press - Journals

Subject

Artificial Intelligence,General Biochemistry, Genetics and Molecular Biology

Link

https://direct.mit.edu/artl/article-pdf/doi/10.1162/artl_a_00351/1977023/artl_a_00351.pdf

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