Predictions in the light of your own action repertoire as a general computational principle.

Peter König; Niklas Wilming; Kai Kaspar; Saskia Nagel; Selim Onat

Predictions in the light of your own action repertoire as a general computational principle.

Standard

Predictions in the light of your own action repertoire as a general computational principle. / König, Peter; Wilming, Niklas; Kaspar, Kai; Nagel, Saskia; Onat, Selim.

In: BEHAV BRAIN SCI, 2013.

Research output: SCORING: Contribution to journal › Other (editorial matter etc.) › Research

Harvard

König, P, Wilming, N, Kaspar, K, Nagel, S & Onat, S 2013, 'Predictions in the light of your own action repertoire as a general computational principle.', BEHAV BRAIN SCI.

APA

König, P., Wilming, N., Kaspar, K., Nagel, S., & Onat, S. (2013). Predictions in the light of your own action repertoire as a general computational principle. BEHAV BRAIN SCI.

Vancouver

König P, Wilming N, Kaspar K, Nagel S, Onat S. Predictions in the light of your own action repertoire as a general computational principle. BEHAV BRAIN SCI. 2013.

Bibtex

@article{ae194bc917314a0eb26025714dbb9785,

title = "Predictions in the light of your own action repertoire as a general computational principle.",

abstract = "We argue that brains generate predictions only within the constraints of the action repertoire. This makes the computational complexity tractable and fosters a step-by-step parallel development of sensory and motor systems. Hence, it is more of a benefit than a literal constraint and may serve as a universal normative principle to understand sensorimotor coupling and interactions with the world.",

author = "Peter K{\"o}nig and Niklas Wilming and Kai Kaspar and Saskia Nagel and Selim Onat",

note = "Editorial",

year = "2013",

language = "English",

journal = "BEHAV BRAIN SCI",

issn = "0140-525X",

publisher = "Cambridge University Press",

}

RIS

TY - JOUR

T1 - Predictions in the light of your own action repertoire as a general computational principle.

AU - König, Peter

AU - Wilming, Niklas

AU - Kaspar, Kai

AU - Nagel, Saskia

AU - Onat, Selim

N1 - Editorial

PY - 2013

Y1 - 2013

N2 - We argue that brains generate predictions only within the constraints of the action repertoire. This makes the computational complexity tractable and fosters a step-by-step parallel development of sensory and motor systems. Hence, it is more of a benefit than a literal constraint and may serve as a universal normative principle to understand sensorimotor coupling and interactions with the world.

AB - We argue that brains generate predictions only within the constraints of the action repertoire. This makes the computational complexity tractable and fosters a step-by-step parallel development of sensory and motor systems. Hence, it is more of a benefit than a literal constraint and may serve as a universal normative principle to understand sensorimotor coupling and interactions with the world.

M3 - Other (editorial matter etc.)

JO - BEHAV BRAIN SCI

JF - BEHAV BRAIN SCI

SN - 0140-525X

ER -