Abstract
Learning about the function and use of tools through observation requires the ability to exploit one's own knowledge derived from past experience. It also depends on the detection of low-level local cues that are rooted in the tool's perceptual properties. Best known as ‘affordances’, these cues generate biomechanical priors that constrain the number of possible motor acts that are likely to be performed on tools. The contribution of these biomechanical priors to the learning of tool-use behaviors is well supported. However, it is not yet clear if, and how, affordances interact with higher-order expectations that are generated from past experience – i.e. probabilistic exposure – to enable observational learning of tool use. To address this question we designed an action observation task in which participants were required to infer, under various conditions of visual uncertainty, the intentions of a demonstrator performing tool-use behaviors. Both the probability of observing the demonstrator achieving a particular tool function and the biomechanical optimality of the observed movement were varied. We demonstrate that biomechanical priors modulate the extent to which participants' predictions are influenced by probabilistically-induced prior expectations. Biomechanical and probabilistic priors have a cumulative effect when they ‘converge’ (in the case of a probabilistic bias assigned to optimal behaviors), or a mutually inhibitory effect when they actively ‘diverge’ (in the case of probabilistic bias assigned to suboptimal behaviors).
Highlights
Tool-use refers to a type of behavior that consists in manipulating ‘‘external objects with the goal of altering the physical properties of another object, substance, surface, or medium, via a mechanical interaction’’, or that consists in ‘‘mediating the flow of information between the tool user and the environment’’ ([1] pp.1203)
The 2 |2 |3 repeatedmeasures ANOVAs revealed a main effect of the ‘type of behavior’ on both hits (F1.21 = 17.19, p,.001, = .45) and response times (RTs) (F1.21 = 6.97, p = .01, = .25); participants were more accurate and faster at predicting optimal than suboptimal behaviors
We show that perceiving observed behaviors as rational depends on lowlevel local cues from which their biomechanical costs are estimated with regard to their final goals
Summary
Tool-use refers to a type of behavior that consists in manipulating ‘‘external objects with the goal of altering the physical properties of another object, substance, surface, or medium, via a mechanical interaction’’, or that consists in ‘‘mediating the flow of information between the tool user and the environment’’ ([1] pp.1203). It has been argued that this competence arises from a set of interpretative and learning predispositions that allows human observers to i) decode kinematic information into the causal relationships between a behavioral sequence and its result [7], ii) interpret biological movements performed by others as ‘rational’ (i.e. assuming that the most optimal actions means are adopted to achieve a particular goal) [8], and iii) accumulate knowledge from past observations about an agent’s intentions and behaviors, and use this database in order to predict future events [9,10,11,12,13]. In this article we posit that these sophisticated learning skills could benefit from simpler heuristics allocated to the detection of low-level, local sources of information, such as the manipulative properties of objects [17]
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