Abstract
When someone masters a skill, their performance looks to us like second nature: it looks as if their actions are smoothly performed without explicit, knowledge-driven, online monitoring of their performance. Contemporary computational models in motor control theory, however, are instructionist: that is, they cast skillful performance as a knowledge-driven process. Optimal motor control theory (OMCT), as representative par excellence of such approaches, casts skillful performance as an instruction, instantiated in the brain, that needs to be executed—a motor command. This paper aims to show the limitations of such instructionist approaches to skillful performance. We specifically address the question of whether the assumption of control-theoretic models is warranted. The first section of this paper examines the instructionist assumption, according to which skillful performance consists of the execution of theoretical instructions harnessed in motor representations. The second and third sections characterize the implementation of motor representations as motor commands, with a special focus on formulations from OMCT. The final sections of this paper examine predictive coding and active inference—behavioral modeling frameworks that descend, but are distinct, from OMCT—and argue that the instructionist, control-theoretic assumptions are ill-motivated in light of new developments in active inference.
Highlights
On this model of motor control, the so-called forward model and optimal controller work together to select an optimal action, based on a value function specified in terms of desired states; where the motor command is specified in terms of instructions for movement formulated in an intrinsic frame of reference
This paper critically discussed the limitations of instructionist approaches to skillful performance and to assess what kind of knowledge is involved in motor control
The instructionist assumption is that according to which skillful performance is, at bottom, driven by motor representations that harness instructions about how to perform a given task
Summary
OCT is instructionist in that it posits that skillful performance is realized through the construction and execution of an explicit motor command, which harnesses knowledge about (instructions for) skillful, knowledge-driven motor task execution On this model of motor control, the so-called forward model and optimal controller work together to select an optimal action, based on a value function specified in terms of desired states; where the motor command is specified in terms of instructions for movement formulated in an intrinsic frame of reference (i.e., formulated in terms of the states of motor effectors, such as stretching and compressing of muscle fibbers). It does not assume that the explanatory story offered by sensorimotor accounts need posit any causally efficacious mediating knowledge
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