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Scaling mobility patterns and collective movements: deterministic walks in lattice

This study investigates the deterministic walks in scaling mobility patterns and collective movements in biological and human behavior. The model developed aligns with empirical results and provides insights into the optimization of searches and the emergence of ordered collective movements.

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Scaling mobility patterns and collective movements: deterministic walks in lattice

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  1. Scaling mobility patterns and collective movements: deterministic walks in lattice Han Xiao-Pu Zhou Tao Wang Bing-Hong University of Science and Technology of China

  2. Empirical results of biological mobility patterns • Previous explanations of such property • Our model • Conclusions

  3. Scaling biological mobility patterns Spider monkey Microzooplankton Behav. Ecol. Sociobiol. (2004) 55:223, Levy walk patterns in the foraging movements of spider monkeys PNAS (2003) 100 :12771, Helical Levy walks: Adjusting searching statistics to resource availability in microzooplankton

  4. Empirical results: marine predator Nature_451_1098-Scaling laws of marine predator search behaviour

  5. Human mobility patterns Nature (2008) 453:779, Understanding individual human mobility patterns Nature (2006) 439:462, The scaling laws of human travel

  6. Explanation: Optimizing searches Nature_401_911-Optimizing the success of random searches

  7. Dynamical model: Deterministic walks PhysRevE_75_061114-Origin of power-law distributions in deterministic walks-The influence of landscape geometry PhysA_342_329-Modeling the searching behavior of social monkeys

  8. Our model • Start point: • seeking advantage • least action • Based on deterministic walks

  9. Basic Rules • One or several walkers moving on 2D lattices • The resource of each position can slowly recover • Walkers exhaust the resource of their occupied position, and jump to the nearest and richest position

  10. Main Parameters • M: number of walkers, denotes the group size • N: size of lattice • r = MV/N^2, denotes the degree of resource richness • V: the maximum value of the resource in a lattice

  11. Typical trajectories • M = 100 • N = 500 • Move 5000 steps

  12. Moving length distribution

  13. Collective Movements Just like the marching bands of locust Two movies

  14. The periodic evolution of ordering parameter

  15. Evolution of averaged ordering parameter The absence of food leads to the collective movements

  16. Notice • There is not any directly interactions between individuals • Different with most of the models for collective movements

  17. Approximately analysis

  18. Conclusions • Our model starts from two universal properties of biological behavior • Our model can generate power-law flight length distribution with exponent -1.6 to -3.0, in agreement with empirical results • Around the critical point, our model generates ordered collective movements of walkers with a quasi-periodic synchronization of walkers' directions. • Our findings provide a bridge to connect the individual scaling mobilitypatterns and the ordered collective movements

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