Karolinska Institutet
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Working memory control dynamics follow principles of spatial computing.

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posted on 2024-10-16, 13:19 authored by Mikael LundqvistMikael Lundqvist, Scott L Brincat, Jonas Rose, Melissa R Warden, Timothy J Buschman, Earl K Miller, Pawel Herman
Working memory (WM) allows us to remember and selectively control a limited set of items. Neural evidence suggests it is achieved by interactions between bursts of beta and gamma oscillations. However, it is not clear how oscillations, reflecting coherent activity of millions of neurons, can selectively control individual WM items. Here we propose the novel concept of spatial computing where beta and gamma interactions cause item-specific activity to flow spatially across the network during a task. This way, control-related information such as item order is stored in the spatial activity independent of the detailed recurrent connectivity supporting the item-specific activity itself. The spatial flow is in turn reflected in low-dimensional activity shared by many neurons. We verify these predictions by analyzing local field potentials and neuronal spiking. We hypothesize that spatial computing can facilitate generalization and zero-shot learning by utilizing spatial component as an additional information encoding dimension.

Funding

The Hot-Coal hypothesis of working memory : European Research Council | 949131

Volitional control of working memory : Swedish Research Council | 2018-04197_VR

History

File version

  • Published

Publication status

Published online

Sub type

Article

Journal

Nat Commun

ISSN

2041-1723

eISSN

2041-1723

Volume

14

Issue

1

Pagination

1429-

Article number

ARTN 1429

Language

  • eng

Original self archiving date

2024-01-30

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