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Physical Mechanism Underlying Opinion Spreading Jia Shao Advisor: H. Eugene Stanley J. Shao, S. Havlin, and H. E. Stanley, Phys. Rev. Lett. 103, 018701.

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Presentation on theme: "Physical Mechanism Underlying Opinion Spreading Jia Shao Advisor: H. Eugene Stanley J. Shao, S. Havlin, and H. E. Stanley, Phys. Rev. Lett. 103, 018701."— Presentation transcript:

1 Physical Mechanism Underlying Opinion Spreading Jia Shao Advisor: H. Eugene Stanley J. Shao, S. Havlin, and H. E. Stanley, Phys. Rev. Lett. 103, 018701 (2009).

2 Questions How do different opinions influence each other in human society? Why minority opinion can persistently exist?

3 Motivation Public opinion is important. Simulation of opinion formation is a challenging task, requiring reliable information on human interaction networks. There is a gap between existing models and empirical findings on opinion formation. Instead of using individual level network, we propose a community level network to study opinion dynamics. US presidential elections

4 Outline Part I: Empirical findings from presidential election Part II: Invasion Percolation Part III: We propose a dynamic opinion model which can explain the empirical findings

5 2008 Presidential Election Part I f Dem f T =0.5 f T =0.3 f T =0.8 We study counties with f>f T http://www-personal.umich.edu/~mejn/election/2008/

6 Counties in southern New England Part I

7 Counties in southern New England Part I

8 Counties in southern New England Part I Barnstable f=55% Polymouth f=54% Norfolk f=54% Worcester f=57% Fairfield f=52% Litchfield f=47% Windham f=53% Kent f=56% Vote for Obama

9 Counties in southern New England Part I County network of f>f T =0.6 Number of counties:17 Size of largest cluster: 10

10 Counties in Massachusetts Part I

11 Counties in Massachusetts 0.57 0.53 0.59 0.57 Part I

12 Counties in Massachusetts Network of Counties with f Obama >0.6 Part I

13 County Network of Obama Part I Counties of f Obama >f T 50% decrease

14 County Network of McCain Part I Counties of f McCain >f T 30% decrease

15 Clusters formed by counties when f T =f c Fractal dimension: d l =1.56  =1.86 The phase transition in county network is different from randomized county network. Part I County network Diameter Cluster Size

16 The real life county election network demonstrates a percolation-like phase transition at f T =f c. This phase transition is different from random percolation. What class of percolation does this phase transition belong to?

17 Invasion Percolation Invasion percolation describes the evolution of the front between two immiscible liquids in a random medium when one liquid is displaced by injection of the other. Trapped region will not be invaded. Example: Inject water into earth layer containing oil A: Injection Point D. Wilkinson and J. F. Willemsen, J. Phys. A 16, 3365 (1983). Part II P. G. de Gennes and E. Guyon, J. Mech. 17, 403(1978).

18 Invasion Percolation Trapped Region of size s P(s) ~ s -1.89 Fractal dimension: 1.51 s ~l 1.51 S S. Schwarzer et al., Phys. Rev. E. 59, 3262 (1999). Part II

19 The phase transition of the county election network belongs to the same universality of invasion percolation. Why invasion percolation? How can we simulate the dynamic process of opinion formation?

20 Evolution of mutually exclusive opinions Time 0 Time 1 Time 2 : =2:3 : =3:4 stable state (no one in local minority opinion)

21 A. Opinion spread for initially : =2:3 stable state : =1:4

22 B. Opinion spread for initially : =1:1 stable state : =1:1

23 “Phase Transition” on square lattice critical initial fraction f c =0.5 size of the second largest cluster ×100 Phase 1Phase 2 A B largest

24 2 classes of network: differ in degree k distribution Poisson distribution: Power-law distribution: Edges connect randomlyPreferential Attachment (ii) scale-free (i) Erdős-Rényi µ Log P(k) Log k µ µ

25 “Phase Transition” for both classes of network f c ≈ 0.46 Q1: At f c, what is the distribution of cluster size “s”? Q2: What is the average distance “r” between nodes belonging to the same cluster? (a) Erdős-Rényi (b) scale-free f c ≈ 0.30 µ

26 Clusters formed by minority opinion at f c Cumulative distribution function P(s’>s) ~ s -0.89 PDF P(s) ~ s -1.89 r/s (1/1.84) Const. s ~ r 1.84 Conclusion: “Phase transition” of opinion model belongs to the same universality class of invasion percolation. r

27 Summary There exists a phase transition in the county election network when changing f T. The phase transition of county network can be mapped to oil-field-inspired physics problem, “invasion percolation”. We propose a network model which can explain the empirical findings.

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