2021
DOI: 10.1371/journal.pcbi.1009597
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Preparing to move: Setting initial conditions to simplify interactions with complex objects

Abstract: Humans dexterously interact with a variety of objects, including those with complex internal dynamics. Even in the simple action of carrying a cup of coffee, the hand not only applies a force to the cup, but also indirectly to the liquid, which elicits complex reaction forces back on the hand. Due to underactuation and nonlinearity, the object’s dynamic response to an action sensitively depends on its initial state and can display unpredictable, even chaotic behavior. With the overarching hypothesis that subje… Show more

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Cited by 23 publications
(55 citation statements)
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References 112 publications
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“…However, it remains to be understood to what extent this result extends to other kinds of skilled behavior that may have different characteristics and whether the prevalence of low entropy of states or of actions is task-dependent. A large body of research has shown that when learning and performing skills that require the manipulation of objects, people use sophisticated strategies; for example, they select appropriate initial conditions for the control task that simplify subsequent interactions [53] and make the object dynamics predictable [54]. Moreover, in keeping with classical work of Bernstein [55], recent studies found that people and animals modulate various aspects of the variability of their actions and sensations during learning in adaptive ways; for example, they counteract the maladaptive effects of noise by channeling it into task-irrelevant dimensions and increase their movement variability when their performance is poor [50,[56][57][58].…”
Section: Discussionmentioning
confidence: 99%
“…However, it remains to be understood to what extent this result extends to other kinds of skilled behavior that may have different characteristics and whether the prevalence of low entropy of states or of actions is task-dependent. A large body of research has shown that when learning and performing skills that require the manipulation of objects, people use sophisticated strategies; for example, they select appropriate initial conditions for the control task that simplify subsequent interactions [53] and make the object dynamics predictable [54]. Moreover, in keeping with classical work of Bernstein [55], recent studies found that people and animals modulate various aspects of the variability of their actions and sensations during learning in adaptive ways; for example, they counteract the maladaptive effects of noise by channeling it into task-irrelevant dimensions and increase their movement variability when their performance is poor [50,[56][57][58].…”
Section: Discussionmentioning
confidence: 99%
“…With the development of novel metrics, previous work found that neurotypical individuals aimed to make interactions with the cup-and-ball system more predictable, quantified by mutual information. Participants increased the mutual information about the object dynamics by exploiting resonance frequencies [15], [17], converging to the optimal phase of the system [9], stabilizing internal dynamics [11], [12], and appropriately initializing the object [10], [18]. Counter to common expectations, subjects did not minimize expended effort, nor increase the smoothness of the object kinematics [9], [10], [15].…”
Section: Introductionmentioning
confidence: 99%
“…Many objects that individuals interact with in daily life have internal dynamics that must be managed for successful use [9], [10], [11]. Such interactions pose challenges to coordination that are absent in unconstrained movements which have been predominant foci of motor neuroscience research [12].…”
Section: Introductionmentioning
confidence: 99%
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“…Evidence of the fractal behavior has also been found in the escapes governed by different regions of initial conditions (IC) and system control parameters [20]. Clearly, the prediction of the dynamical behavior for any region in the IC space is of crucial importance for all the above applications, as well as for design and even optimization purposes [21]. An extended numerical investigation was performed to map the escape region for 3DOF models.…”
Section: Introductionmentioning
confidence: 99%