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Random Graph Experiments Output Visualization





In [1]:



    


#!/usr/bin/python
%matplotlib inline
import numpy as np
import matplotlib.pyplot as plt
from stats import parse_results, get_percentage, get_avg_per_seed, draw_pie, draw_bars, draw_bars_comparison, draw_avgs

Parse results





In [2]:



    


pr, eigen, bet = parse_results('test_rdbg.txt')

PageRank Seeds Percentage

How many times the "Top X" nodes from PageRank have led to the max infection





In [3]:



    


draw_pie(get_percentage(pr))

Avg adopters per seed comparison





In [4]:



    


draw_bars_comparison('Avg adopters per seeds', 'Avg adopters', np.array(get_avg_per_seed(pr)+[(0, np.mean(pr[:,1]))]))

Eigenvector Seeds Percentage

How many times the "Top X" nodes from Eigenvector have led to the max infection





In [5]:



    


draw_pie(get_percentage(eigen))

Avg adopters per seed comparison





In [6]:



    


draw_bars_comparison('Avg adopters per seeds', 'Avg adopters', np.array(get_avg_per_seed(eigen)+[(0, np.mean(eigen[:,1]))]))

Betweenness Seeds Percentage

How many times the "Top X" nodes from Betweenness have led to the max infection





In [7]:



    


draw_pie(get_percentage(bet))

Avg adopters per seed comparison





In [8]:



    


draw_bars_comparison('Avg adopters per seeds', 'Avg adopters', np.array(get_avg_per_seed(bet)+[(0, np.mean(bet[:,1]))]))

100 runs adopters comparison





In [9]:



    


draw_bars(np.sort(pr.view('i8,i8'), order=['f0'], axis=0).view(np.int),
         np.sort(eigen.view('i8,i8'), order=['f0'], axis=0).view(np.int),
         np.sort(bet.view('i8,i8'), order=['f0'], axis=0).view(np.int))

Centrality Measures Averages

PageRank avg adopters and seed





In [10]:



    


pr_mean = np.mean(pr[:,1])
pr_mean_seed = np.mean(pr[:,0])
print 'Avg Seed:',pr_mean_seed, 'Avg adopters:', pr_mean



    


















    






Avg Seed: 97.8 Avg adopters: 199.07

Eigenv avg adopters and seed





In [11]:



    


eigen_mean = np.mean(eigen[:,1])
eigen_mean_seed = np.mean(eigen[:,0])
print 'Avg Seed:',eigen_mean_seed, 'Avg adopters:',eigen_mean



    


















    






Avg Seed: 97.35 Avg adopters: 266.55

Betweenness avg adopters and seed





In [12]:



    


bet_mean = np.mean(bet[:,1])
bet_mean_seed = np.mean(bet[:,0])
print 'Avg Seed:',bet_mean_seed, 'Avg adopters:',bet_mean



    


















    






Avg Seed: 97.6 Avg adopters: 244.92

















In [13]:



    


draw_avgs([pr_mean, eigen_mean, bet_mean])

Content source: indiependente/Social-Networks-Structure

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