turtles-own [ opinion new-opinion left-cluster] ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; to setup clear-all ;;call procedures that initialize the system setup-nodes setup-network ask patches [ set pcolor white ] ;; get a white background ;;initialize the opinions and provide statistics ask turtles [set opinion random-float 1 update-look-of-turtle] ;;graphical output my-update-plots show-influence-links reset-ticks end ;;to setup ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; to setup-nodes ;;create two groups of agents set-default-shape turtles "face happy" crt N [ set size 2.5 set label who set label-color black ] end ;;to setup-nodes ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; to setup-network ;;1st create the two segments layout-circle turtles with [who < (N / 2)] 15 layout-circle turtles with [who >= (N / 2)] 15 ask turtles[ if who < (N / 2) [set xcor xcor - 20 ] if who >= (N / 2) [set xcor xcor + 20 ] ] ;;2nd connect all pairs of agents who are member of the same segment ask turtles [ ifelse (who < (N / 2)) [create-links-with other turtles with [ ((who < (N / 2))) and (not link-neighbor? myself) ]] [create-links-with other turtles with [ ((who >= (N / 2))) and (not link-neighbor? myself) ]] ] ;;3rd connect the two segment with one additional link (choose closest turtles for graphical reasons) let linkend max-one-of turtles with [(who < (N / 2))] [xcor] ;;reports an agent set containing the most rightist turtle of the left component ask min-one-of turtles with [(who >= (N / 2))] [xcor] [create-link-with linkend ] ;;4th rewire if wanted if R > 0 [Maslov_Sneppen_rewiring] end ;;to setup-network ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; to engine ask turtles [set new-opinion (opinion + sum [opinion] of link-neighbors with [ abs(opinion - ([opinion] of myself)) <= BC-level ]) / (1 + count link-neighbors with [ abs(opinion - ([opinion] of myself)) <= BC-level ]) ] ask turtles [set opinion new-opinion update-look-of-turtle] ;;graphical output my-update-plots show-influence-links tick if stop-ticking? [stop] end ; run ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; to show-influence-links ask links with [abs( ([opinion] of end1) - ([opinion] of end2)) > BC-level] [ set color red] ask links with [abs( ([opinion] of end1) - ([opinion] of end2)) <= BC-level] [ set color black] ask links with [color = black and (abs( ([opinion] of end1) - ([opinion] of end2)) < (10 ^ -10))] [set color green] end ; to show-influence-links ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; to my-update-plots set-current-plot "opinion distribution" set-histogram-num-bars 100 histogram [opinion] of turtles set-current-plot "opinion variance" plot (variance [opinion] of turtles) set-current-plot "Number of clusters" plot number-of-clusters set-current-plot "opinion range" plot opinion-range end ; to update-plots ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; to update-look-of-turtle ;set size (opinion * 10) set color scale-color red opinion 0 1 end ; update-look-of-turtle ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; to-report stop-ticking? ;call show-influence-links before this procedure to update link color ifelse (count links) = (count links with [color = red]) + (count links with [color = green]) [report true] [report false] end ;to stop-ticking? ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; to Maslov_Sneppen_rewiring let A-who 99999 let B-who 99999 let C-who 99999 let D-who 99999 let successful 0 while [successful < R] [;;first step: pick two pairs that might be rewired ask one-of turtles [set A-who who ask one-of link-neighbors [set B-who who] ] ask one-of turtles [set C-who who ask one-of link-neighbors [set D-who who] ] ;;second step: rewire if there aren't links already if ((A-who != D-who) and (B-who != C-who) and (A-who != C-who) and (B-who != D-who) and not (is-link? link A-who D-who) and not (is-link? link B-who C-who) ) [ask turtle A-who [ ask link-with turtle B-who [ die ] ] ask turtle A-who [ create-link-with turtle D-who ] ask turtle C-who [ ask link-with turtle D-who [ die ] ] ask turtle B-who [ create-link-with turtle C-who ] set successful successful + 1 ] ] ;;while end ;;to Maslov_Sneppen_rewiring ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; to-report number-of-clusters let opinion-vector [] ask turtles [ set opinion-vector fput (precision opinion 9) opinion-vector] set opinion-vector remove-duplicates opinion-vector report length opinion-vector end; to report number-of-clusters ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; to-report opinion-range report (max [opinion] of turtles ) - (min [opinion] of turtles) end; to report number-of-clusters @#$#@#$#@ GRAPHICS-WINDOW 498 10 1293 632 40 30 9.7 1 10 1 1 1 0 0 0 1 -40 40 -30 30 1 1 1 ticks 30.0 BUTTON 146 23 241 106 NIL setup NIL 1 T OBSERVER NIL NIL NIL NIL 1 SLIDER 148 180 343 213 N N 10 200 50 5 1 NIL HORIZONTAL TEXTBOX 144 136 405 167 Model parameters 24 0.0 1 PLOT 41 384 236 534 opinion distribution NIL abs. freq. 0.0 1.0 0.0 10.0 true false "" "" PENS "default" 0.01 1 -16777216 true "" "" SLIDER 146 235 342 268 BC-level BC-level 0 1 0.3 0.02 1 NIL HORIZONTAL BUTTON 254 23 349 105 run engine T 1 T OBSERVER NIL NIL NIL NIL 1 PLOT 245 542 444 692 Opinion variance time NIL 0.0 10.0 0.0 0.1 true false "" "" PENS "opinion_variance" 1.0 0 -2674135 true "" "" SLIDER 145 293 339 326 R R 0 1000 2 1 1 NIL HORIZONTAL PLOT 41 542 236 692 Number of clusters time NIL 0.0 10.0 0.0 10.0 true false "" "" PENS "default" 1.0 0 -16777216 true "" "" PLOT 245 384 445 534 opinion range opinion range 0.0 1.0 0.0 1.0 true false "" "" PENS "opinion_range" 1.0 0 -16777216 true "" "" TEXTBOX 147 346 368 379 Output measures 24 0.0 1 TEXTBOX 156 165 306 183 Number of agents 11 0.0 1 TEXTBOX 155 220 477 238 Degree of homophily (high values imply weak homophily) 11 0.0 1 TEXTBOX 156 276 306 294 Network structure\n 11 0.0 1 @#$#@#$#@ ## WHAT IS IT? Based on the famous bounded-confidence model by Hegselmann and Krause (2002), this program allows you to develop hypotheses about the effects of homophily and network structure on the outcomes of social-influence processes in networks. In particular, you can identify the conditions under which the influence process results in perfect opinion homogeneity (consensus) or opinion diversity (clustering). Homophily, the first independent variable, models that individuals tend to interact only with others who hold similar opinions. The corresponding "BC-level" slider manipulates how similar two agents need to be to have impact on each others' opinions. The structure of the network is the second independent variable. The R-slider manipulates the degree to which the network is clustered. That is, if R is set to zero, the network consists of two network clusters where all members of a cluster are connected to each other. There is, however, only a single link between the two clusters. Thus, this network is connected but maximally clustered. When R adopts higher values, the program randomly rewires ties R times, which leads to more links between the network clusters. We implemented the Maslov-Sneppen-rewiring algorithm (2002), which only manipulates network structure and keeps the number of network links in the populations as well as the number of connections of each agent constant. ## HOW IT WORKS Each agent is described by a variable that represents her opinion. Opinions can adopt any value between zero and one. On the interface, the color (red shades) of the agents depicts their opinion. In addition, agents are connected to other members of the population by network links. A network link represents that the connected agents can influence each other. Links are fixed. However, whether or not the opinion of a connected agent is influential at a given point in time depends on the similarity between the agents. On the interface, a green link shows that the two agents hold identical opinions. Black links depicts that the agents hold different opinions, but the opinion difference is not too big. If the opinion difference exceeds the threshold defined by the "BC-level " slider, however, links turn red. This shows that the two agents do not exert influence on each other’s opinions, although they are connected. Initially, agents are assigned a random opinion value, which is drawn from a uniform distribution. At each tick, the opinions of all agents are updated. The updated opinion is the average of the opinions of the networks contacts that are not too different. The opinion updating continues until dynamics reach equilibrium. There a two possible equilibria. First, dynamics settle when all agents hold identical opinions (consensus). Second, equilibrium is reached when agents have formed opinion clusters where all members of a cluster hold identical opinions but the opinion differences between members of different clusters exceed the "bounded-confidence" threshold. ## HOW TO USE IT On the interface, select the size of the population, using the N-slider, and how strong homophily is, using the BC-level slider. For instance, when you set the BC-level slider to a value of zero, agents are influenced only by those network neighbors that are perfectly similar. A BC-level of 1, on the other hand, assumes that agents are influenced by all network neighbors. A value of 0.5 would imply that agents are influenced only by those network neighbors that hold opinions that differ not more than 0.5 from the focal agent's opinion. Finally, select a network structure with the R-slider. When you click the setup button, the system is initialized. Next, click the run button and the program will update agents' opinions until equilibrium is reached On the interface, there are four output graphs, which visualize the dynamics of the model. First, there is a histogram of the opinion distribution in the population. Second, a graph shows the development of the range of the opinion distribution (max[opinion] - min[opinion]). Third, a graph depicts the development of the number of opinion clusters. An opinion cluster is a set of agents with identical opinions. Fourth, a graph reports the development of the variance of the opinion distribution. In addition, we implemented a simple simulation experiment in the BehaviorSpace tool of NetLogo. With this experiment, you can study populations of 100 agents and explore how influence dynamics are affected by the structure of the network and the degree of homophily. The experiment will conduct 100 independent simulation runs per experimental condition. ## THINGS TO NOTICE We implemented the Maslov-Sneppen rewiring algorithm. ## THINGS TO TRY We suggest that you use the model to study how network structure and homophily strength affect the degree of opinion diversity in equilibrium. In addition, there are interesting effects of the two independent variables on the number of ticks needed to reach equilibrium. ## EXTENDING THE MODEL Three simple extensions might be interesting. First, you may want to study more diverse network structures (see e.g. the examples in the NetLogo model library). Second, you may want to relax the assumption that all agents have the same degree of homophily. In other words, one might include variation in the BC-level of the agents. Finally, it would be interesting to study the robustness of the model predictions to the effects of randomness. The work by Mäs et al. (2010) and Pineda et al. (2009) has shown that the predictions of the Bounded-Confidence model can change in various unexpected ways when noise is included. ## RELATED MODELS The model is similar to Axelrod's model of cultural dissemination, which has been implemented in NetLogo (see http://ccl.northwestern.edu/netlogo/models/community/cultura and http://ccl.northwestern.edu/netlogo/models/community/AxelrodV2) The Bounded-Confidence model and many very interesting extensions have been implemented by Jan Lorenz here: http://ccl.northwestern.edu/netlogo/models/community/bc ## CREDITS AND REFERENCES The program was written by Michael Mäs and Andreas Flache. Corresponding author: Michael Mäs ETH Zürich Clausiussstrasse 37 8092 Zürich e-mail: mmaes@ethz.ch www.maes-sociology.eu References Hegselmann, Rainer and Ulrich Krause. 2002. "Opinion Dynamics and Bounded Confidence Models, Analysis, and Simulation." Journal of Artificial Societies and Social Simulation 5 (3). Mäs, Michael, Andreas Flache, and Dirk Helbing. 2010. "Individualization as Driving Force of Clustering Phenomena in Humans." PLoS Computational Biology 6 (10):e1000959. Maslov, S. and K. Sneppen. 2002. "Specificity and Stability in Topology of Protein Networks." Science 296 (5569):910-913. Pineda, M., R. Toral, and E. Hernandez-Garcıa. 2009. "Noisy Continuous-Opinion Dynamics." 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