AI Article Synopsis
- Finding the global minimum in complex networks is tough, especially in human networks that must adapt to various disturbances like conflicts and climate change.
- Our study on violin players showed that human networks use unique methods, like changing coupling strength and tempo, to avoid local minima, making them more resilient than non-human networks.
- The research highlights phenomena like high-order vortex states and oscillation death, and it may inform various fields such as politics, economics, and AI-driven decision-making.
Article Abstract
Finding the global minimum in complex networks while avoiding local minima is challenging in many types of networks. In human networks and communities, adapting and finding new stable states amid changing conditions due to conflicts, climate changes, or disasters, is crucial. We studied the dynamics of complex networks of violin players and observed that such human networks have different methods to avoid local minima than other non-human networks. Humans can change the coupling strength between them or change their tempo. This leads to different dynamics than other networks and makes human networks more robust and better resilient against perturbations. We observed high-order vortex states, oscillation death, and amplitude death, due to the unique dynamics of the network. This research may have implications in politics, economics, pandemic control, decision-making, and predicting the dynamics of networks with artificial intelligence.
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Source |
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11519520 | PMC |
| http://dx.doi.org/10.1038/s41467-024-53540-7 | DOI Listing |
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