Why Does Higher Working Memory Capacity Help You Learn?

Kevin Lloyd; Adam Sanborn; David Leslie; Stephan Lewandowsky

Why Does Higher Working Memory Capacity Help You Learn?

Kevin Lloyd, Adam Sanborn, David Leslie, Stephan Lewandowsky

Research output: Chapter in Book/Conference paper › Conference paper › peer-review

Abstract

Algorithms for approximate Bayesian inference, such as Monte Carlo methods, provide one source of models of how people may deal with uncertainty in spite of limited cognitive resources. Here, we model learning as a process of sequential sampling, or 'particle filtering', and suggest that an individual's working memory capacity (WMC) may be usefully modelled in terms of the number of samples, or 'particles', that are available for inference. The model qualitatively captures two distinct effects reported recently, namely that individuals with higher WMC are better able to (i) learn novel categories, and (ii) flexibly switch between different categorization strategies.

Original language	English
Title of host publication	Proceedings of the 39th Annual Meeting of the Cognitive Science Society
Subtitle of host publication	Computational Foundations of Cognition (CogSci 2017)
Publisher	The Cognitive Science Society
Pages	767-772
Number of pages	6
ISBN (Electronic)	9780991196760
Publication status	Published - 2017
Externally published	Yes
Event	39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition, CogSci 2017 - London, United Kingdom Duration: 26 Jul 2017 → 29 Jul 2017

Publication series

Name	CogSci 2017 - Proceedings of the 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition

Conference

Conference	39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition, CogSci 2017
Country/Territory	United Kingdom
City	London
Period	26/07/17 → 29/07/17

Cite this

Lloyd, K., Sanborn, A., Leslie, D., & Lewandowsky, S. (2017). Why Does Higher Working Memory Capacity Help You Learn? In Proceedings of the 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition (CogSci 2017) (pp. 767-772). Article 182807 (CogSci 2017 - Proceedings of the 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition). The Cognitive Science Society.

Lloyd, Kevin ; Sanborn, Adam ; Leslie, David et al. / Why Does Higher Working Memory Capacity Help You Learn?. Proceedings of the 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition (CogSci 2017). The Cognitive Science Society, 2017. pp. 767-772 (CogSci 2017 - Proceedings of the 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition).

@inproceedings{7fba7ef5400e431d9a4c96b72dba5575,

title = "Why Does Higher Working Memory Capacity Help You Learn?",

abstract = "Algorithms for approximate Bayesian inference, such as Monte Carlo methods, provide one source of models of how people may deal with uncertainty in spite of limited cognitive resources. Here, we model learning as a process of sequential sampling, or 'particle filtering', and suggest that an individual's working memory capacity (WMC) may be usefully modelled in terms of the number of samples, or 'particles', that are available for inference. The model qualitatively captures two distinct effects reported recently, namely that individuals with higher WMC are better able to (i) learn novel categories, and (ii) flexibly switch between different categorization strategies.",

keywords = "Bayesian inference, category learning, knowledge restructuring, particle filter, working memory",

author = "Kevin Lloyd and Adam Sanborn and David Leslie and Stephan Lewandowsky",

note = "Publisher Copyright: {\textcopyright} CogSci 2017.; 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition, CogSci 2017 ; Conference date: 26-07-2017 Through 29-07-2017",

year = "2017",

language = "English",

series = "CogSci 2017 - Proceedings of the 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition",

publisher = "The Cognitive Science Society",

pages = "767--772",

booktitle = "Proceedings of the 39th Annual Meeting of the Cognitive Science Society",

}

Lloyd, K, Sanborn, A, Leslie, D & Lewandowsky, S 2017, Why Does Higher Working Memory Capacity Help You Learn? in Proceedings of the 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition (CogSci 2017)., 182807, CogSci 2017 - Proceedings of the 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition, The Cognitive Science Society, pp. 767-772, 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition, CogSci 2017, London, United Kingdom, 26/07/17.

Why Does Higher Working Memory Capacity Help You Learn? / Lloyd, Kevin; Sanborn, Adam; Leslie, David et al.
Proceedings of the 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition (CogSci 2017). The Cognitive Science Society, 2017. p. 767-772 182807 (CogSci 2017 - Proceedings of the 39th Annual Meeting of the Cognitive Science Society: Computational Foundations of Cognition).

Research output: Chapter in Book/Conference paper › Conference paper › peer-review