The robust beauty of ordinary information
The robust beauty of ordinary information
Heuristics embodying limited information search and noncompensatory processing of information can yield robust performance relative to computationally more complex models. One criticism raised against heuristics is the argument that complexity is hidden in the calculation of the cue order used to make predictions. We discuss ways to order cues that do not entail individual learning. Then we propose and test the thesis that when orders are learned individually, people's necessarily limited knowledge will curtail computational complexity while also achieving robustness. Using computer simulations, we compare the performance of the take-the-best heuristic—with dichotomized or undichotomized cues—to benchmarks such as the naïve Bayes algorithm across 19 environments. Even with minute sizes of training sets, take-the-best using undichotomized cues excels. For 10 environments, we probe people's intuitions about the direction of the correlation between cues and criterion. On the basis of these intuitions, in most of the environments take-the-best achieves the level of performance that would be expected from learning cue orders from 50% of the objects in the environments. Thus, ordinary information about cues—either gleaned from small training sets or intuited—can support robust performance without requiring Herculean computations.
1259-1266
Katsikopoulos, Konstantinos V.
b97c23d9-8b24-4225-8da4-be7ac2a14fba
Schooler, Lael
f63d409b-4558-4533-8002-027a6bb485a8
Hertwig, Ralph
37f2ccd6-8058-4822-96b2-8c4a8bb03ad3
2010
Katsikopoulos, Konstantinos V.
b97c23d9-8b24-4225-8da4-be7ac2a14fba
Schooler, Lael
f63d409b-4558-4533-8002-027a6bb485a8
Hertwig, Ralph
37f2ccd6-8058-4822-96b2-8c4a8bb03ad3
Katsikopoulos, Konstantinos V., Schooler, Lael and Hertwig, Ralph
(2010)
The robust beauty of ordinary information.
Psychological Review, 117 (4), .
(doi:10.1037/a0020418).
Abstract
Heuristics embodying limited information search and noncompensatory processing of information can yield robust performance relative to computationally more complex models. One criticism raised against heuristics is the argument that complexity is hidden in the calculation of the cue order used to make predictions. We discuss ways to order cues that do not entail individual learning. Then we propose and test the thesis that when orders are learned individually, people's necessarily limited knowledge will curtail computational complexity while also achieving robustness. Using computer simulations, we compare the performance of the take-the-best heuristic—with dichotomized or undichotomized cues—to benchmarks such as the naïve Bayes algorithm across 19 environments. Even with minute sizes of training sets, take-the-best using undichotomized cues excels. For 10 environments, we probe people's intuitions about the direction of the correlation between cues and criterion. On the basis of these intuitions, in most of the environments take-the-best achieves the level of performance that would be expected from learning cue orders from 50% of the objects in the environments. Thus, ordinary information about cues—either gleaned from small training sets or intuited—can support robust performance without requiring Herculean computations.
Text
Katsikopoulos Psych Review
- Version of Record
Restricted to Repository staff only
Request a copy
More information
Published date: 2010
Identifiers
Local EPrints ID: 415451
URI: http://eprints.soton.ac.uk/id/eprint/415451
ISSN: 0033-295X
PURE UUID: 907c8696-8cc0-4026-88b0-939e82dafc7b
Catalogue record
Date deposited: 10 Nov 2017 17:30
Last modified: 16 Mar 2024 04:28
Export record
Altmetrics
Contributors
Author:
Lael Schooler
Author:
Ralph Hertwig
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
