Decentralized Competition Produces Nonlinear Dynamics Akin to Klinotaxis
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AbstractOne of the biggest challenges in unravelling the complexity of living systems, is to fully understand the neural logic that translates sensory input into the highly nonlinear motor outputs that are observed when simple organisms crawl. Recent work has shown that organisms such as larvae that exhibit klinotaxis (i.e., orientation through lateral movements of portions of the body) can perform normal exploratory practices even in the absence of a brain. Abdominal and thoracic networks control the alternation between crawls and turns. This motivates the search for decentralized models of movement that can produce nonlinear outputs that resemble the experiments. Here, we present such a complex system model, in the form of a population of decentralized decision-making components (agents) whose aggregate activity resembles that observed in klinotaxis organisms. Despite the simplicity of each component, the complexity created by their collective feedback of information and actions akin to proportional navigation, drives the model organism towards a specific target. Our model organism's nonlinear behaviors are consistent with empirically observed reorientation rate measures for Drosophila larvae as well as nematode C. elegans.
All Author(s) ListManrique P, Klein M, Li YS, Xu C, Hui PM, Johnson N
Journal nameComplexity
Year2018
Month7
Day22
Volume Number2018
PublisherWILEY-HINDAWI
Article number9803239
ISSN1076-2787
eISSN1099-0526
LanguagesEnglish-United Kingdom
Web of Science Subject CategoriesMathematics, Interdisciplinary Applications;Multidisciplinary Sciences;Mathematics;Science & Technology - Other Topics

Last updated on 2020-06-07 at 01:40