globals [ whites ;; number of white turtles blacks ;; number of black turtles changed? ;; has any turtle changed its colour? ] turtles-own [ strength ;; of influence, set at initialisation to a random value ] to setup clear-all ask patches [ set pcolor green + 3 ;; make the background light green ;; make each patch sprout one turtle and set the turtle's colour etc. sprout 1 [ ifelse (random 100 < initial-white) [set color white] [set color black] set strength random 100 set heading 0 set shape "person" ] ] countTurtles end to go set changed? false ;; assume that no turtle will change its colour ask turtles [ beInfluenced ] countTurtles if (not changed?) [ stop ] ;; stop if no turtle has changed its colour end to beInfluenced ;; turtle procedure ;; find the impact of supporters and opposers and change my colour ;; if the opposers' impact is greater than the supporters' locals [impactFromWhite impactFromBlack] set impactFromWhite sum values-from turtles with [color = white] [impact myself] set impactFromBlack sum values-from turtles with [color = black] [impact myself] ;; if the impact from whites is greater than that from blacks, change the turtle's colour to ;; white, and vice versa if color = black and (impactFromWhite > impactFromBlack) [set changed? true set color white] if color = white and (impactFromBlack > impactFromWhite) [set changed? true set color black] end to-report impact [otherTurtle] ;; turtle procedure ;; report the impact of otherTurtle on myself locals [d] set d distance otherTurtle if (d = 0) [set d self-distance] ;; (exp ((ln d) * exponent)) calculates d to the power 'exponent' report square (strength / (exp ((ln d) * exponent))) end to-report square [x] report x * x end to countTurtles set whites count turtles with [color = white] set blacks count turtles with [color = black] end @#$#@#$#@ GRAPHICS-WINDOW 378 10 768 421 9 9 20.0 1 10 0 0 CC-WINDOW 18 344 360 421 Command Center SLIDER 76 134 248 167 initial-white initial-white 0 100 50 1 1 % BUTTON 73 71 154 104 setup setup NIL 1 T OBSERVER BUTTON 222 72 303 105 go go T 1 T OBSERVER TEXTBOX 75 116 253 134 Percent of white turtles at start SLIDER 75 204 247 237 exponent exponent 0 10 2 1 1 NIL MONITOR 478 426 535 475 Whites whites 0 1 MONITOR 603 425 660 474 Blacks blacks 0 1 TEXTBOX 75 184 346 202 Exponent of the inverse power law for distance TEXTBOX 36 29 345 56 SitSim: a re-implementation of a simulation to illustrate the Latane and Nowak theory of Dynamic Social Impact SLIDER 75 268 247 301 self-distance self-distance 0.1 2 0.8 0.1 1 NIL TEXTBOX 76 250 290 268 Relative importance of self influence @#$#@#$#@ WHAT IS IT? ----------- This program models one theory of how people's attitudes are influenced by other people. In the early 1980s, Bibb LatanŽ proposed a theory of 'social impact'. The theory states that "the impact of other people on a given individual is a multiplicative function of the 'strength' of members of the group (how credible or persuasive they are), their immediacy (a decreasing function of their social distance from the individual) and their number." (LatanŽ 1996:65). The theory has been extensively tested in a wide range of settings and has received a lot of support. However, to understand its implications, we need to show not only the effect of other people on one individual, but also the effect of that individual on other people. This reciprocal influencing, where everyone influences everyone else, is more complicated to analyse, but can be shown simply in a simulation. In this model, based on the original simulation called SITSIM (Nowak and LatanŽ 1994), turtles are distributed at random, each with a fixed, randomly assigned 'strength' (their persuasiveness). Each turtle has one of two opinions, either 'white' or 'black' (e.g. they prefer white or red meat; they are for or against abortion; they vote on the left or the right). Each turtle is then influenced by all the other turtles, changing its opinion if the sum of the impacts of the turtles opposing its current opinion is greater than the sum of the impacts of the turtles supporting its current opinion. The impact of one turtle on another is calculated using an inverse power law, that is, the influence of one turtle on another is inversely proportional to their separation. So a nearby turtle is more influential than one far away. The influence also depends on the other turtle's persuasiveness, its 'strength'. In real life, the measure of separation may be physical distance, or it may be social distance (e.g. difference in status). If a turtle changes its opinion, this will change the overall impacts experienced by all the other turtles. It might tip the balance so that another turtle changes its opinion and so on. Eventually, however, the system will settle down to an equilibrium. HOW TO USE IT ------------- Press 'setup' to give each turtle an initial strength and an initial opinion. Then press 'go' to get the turtles to influence each other. Set INITIAL-WHITE to vary the percentage of turtles starting with a white rather than a black opinion. Set EXPONENT to change the exponent of the inverse power law. A setting of 2 gives an inverse square law: a turtle's influence on another turtle is proportional to the square root of the distance between them. A setting of zero means that all distances are treated as equal (any number to the power of zero is equal to 1). A high setting means that only the nearest neighbours have any significant influence. Set SELF-DISTANCE to change the effect of the turtle's own opinion on itself. If the value is low, the effect of other turtles' opinions is small, and the turtle will only change its opinion if there is a lot of opposing impact. If the value is high, self-influence becomes negligible. The original model used a distance to self of 0.84, meaning that the self is somewhat more influential than any other single turtle (the closest any other turtle can be is 1). THINGS TO NOTICE ---------------- With the default settings (INITIAL-WHITE 50%, EXPONENT 2, SELF-DISTANCE 0.8), the turtles form into clumps sharing the same opinion. Although the initial equal division of opinion changes to a polarised one in which either black or white are in the majority, the minority is never overwhelmed by the majority. There are always some minority opinions remaining. Run the model a few times and check that the minority always survives. How big is the minority? Usually, there are one or two isolated turtles of one colour, surrounded by turtles of the other colour. How do they manage to resist the opposing opinions of their neighbours? (Hint: select an isolate and use a Turtle Monitor to examine their attributes). THINGS TO TRY ------------- Use the INITIAL-WHITE slider to reduce the number of turtles that hold the black opinion at the start. Notice that when the starting percentage of blacks is very small, there is a high chance that the black opinion will disappear entirely by the end of the run. How small can the initial percentage of black turtles be, yet still survive most of the time? Return to an INITIAL-WHITE setting of 50% and investigate the effect of changing the inverse power law EXPONENT. What is the effect of setting the slider to 0? And to 10? Nowak found that as a general rule, the exponent has to be no smaller than the dimensionality of the social space (which is 2 in this model, because the turtles are on a two-dimensional grid) in order to obtain clustering. Explore the effect of varying the SELF-DISTANCE. Setting it to a high value means that the turtle's own opinion counts for little in comparison with the other turtles' opinions. EXTENDING THE MODEL ------------------- Here are some suggestions for ways to extend the model. - Introduce some 'noise'. In the real world, social influences are never communicated perfectly. What happens if the impact of one turtle on another is affected by a small random 'error' (which could be either positive or negative)? - In the model, initial strengths are assigned at random from a uniform distribution and stay constant throughout the run. Investigate the effect of: * giving every turtle the same strength * giving a few turtles a high strength and rest a low strength (this models a setting in which there are a few influential leaders and the rest are less influential followers) - Harder: Introduce a second attitude, which turtles hold independently of the first, but which follows the same rules of social impact. For example, if first attitude is about whether turtles have a white or black opinion, the second attitude might be about whether they favour blue or green. Compare the opinion clusters for the two attitudes. At the end of a run, do those turtles with a given opinion for one attitude tend to share the same opinion on the second attitude (e.g. do white turtles tend to be also those with red opinions)? See Nowak and LatanŽ (1994) for many other suggestions for parameters that can be varied and their effects. RELATED MODELS -------------- Cellular automata models, but notice that while the cells in CA models are only affected by their closest neighbours, in this model, every turtle is affected to some degree by every other turtle. CREDITS AND REFERENCES ---------------------- The original social impact theory is described in LatanŽ, B. (1981) The psychology of social impact. American Psychologist, 36: 343-356 The SITSIM model is described in Nowak, A. and LatanŽ, B (1994) Simulating the emergence of social order from individual behaviour, in N. Gilbert and J. Doran, Simulating Societies, London: UCL Press. The following parameters are used in this model (these are the SitSim default settings): Accumulative impact formula; No borders; Full window; Monte Carlo update; Unit persuasiveness and supportiveness; Uniform distribution of strength; Same coupling; Same reassignment; No bias; No pre-clustering; Infinite non-linearity coefficient; One attitude; Zero temperature See also N. Gilbert and K.G. Troitzsch (1991) Simulation for the social scientist, Open University Press, chapter 7. AUTHOR ------ Nigel Gilbert August 22, 1996 (version in XLisp); July 25, 2002 (version in NetLogo); August 8, 2003 (revised) contact: n.gilbert@soc.surrey.ac.uk http://www.soc.surrey.ac.uk/staff/nigel_gilbert.html @#$#@#$#@ default true 0 Polygon -7566196 true true 150 5 40 250 150 205 260 250 ant true 0 Polygon -7566196 true true 136 61 129 46 144 30 119 45 124 60 114 82 97 37 132 10 93 36 111 84 127 105 172 105 189 84 208 35 171 11 202 35 204 37 186 82 177 60 180 44 159 32 170 44 165 60 Polygon -7566196 true true 150 95 135 103 139 117 125 149 137 180 135 196 150 204 166 195 161 180 174 150 158 116 164 102 Polygon -7566196 true true 149 186 128 197 114 232 134 270 149 282 166 270 185 232 171 195 149 186 149 186 Polygon -7566196 true true 225 66 230 107 159 122 161 127 234 111 236 106 Polygon -7566196 true true 78 58 99 116 139 123 137 128 95 119 Polygon -7566196 true true 48 103 90 147 129 147 130 151 86 151 Polygon -7566196 true true 65 224 92 171 134 160 135 164 95 175 Polygon 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