Predictability of the imitative learning trajectories
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The fitness landscape metaphor plays a central role on the modeling of optimizing principles in many research fields, ranging from evolutionary biology, where it was first introduced, to management research. Here we consider the ensemble of trajectories of the imitative learning search, in which agents exchange information on their fitness and imitate the fittest agent in the population aiming at reaching the global maximum of the fitness landscape. We assess the degree to which the starting and ending points determine the learning trajectories using two measures, namely, the predictability that yields the probability that two randomly chosen trajectories are the same, and the mean path divergence that gauges the dissimilarity between two learning trajectories. We find that the predictability is greater in rugged landscapes than in smooth ones. The mean path divergence, however, is strongly affected by the search parameters - population size and imitation propensity - that obliterate the influence of the underlying landscape. The imitative search becomes more deterministic, in the sense that there are fewer distinct learning trajectories and those trajectories are more similar to each other, with increasing population size and imitation propensity. In addition, we find that the roughness, which measures de deviation from additivity of the fitness function, of the learning trajectories is always greater than the roughness estimated over the entire fitness landscape.
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