Abstract

The long-term objective of the proposed research is to better understand the nature of the perceptual and cognitive processes involved when a person identifies or categorizes objects. Two lines of research are outlined. The first examines the optimality of human categorization performance when base-rates and payoffs are manipulated simultaneously. Experiments are outlined that examine the effect of (a) stimulus properties, (b) category discriminability, and (c) the costs and benefits associated with various categorization responses on base-rate and payoff sensitivity. All experiment will use the perceptual categorization task (e.g., Ashby & Cott, 1988; Maddox, 1995) in which two normally distributed categories are specified and a large number of category exemplars are sampled from each category distribution. The use of normally distributed categories allows the optimal decision rule to be derived. The approach is to apply a series of quantitative models to the trial-by-trial learning data and to measures of asymptotic performance. Each model will embody specific hypotheses about the optimality, or potential sub-optimality, of responding. Standard categorization procedures as well as hypothetical medical diagnosis procedures will be utilized. These studies will inform many real-world categorization problems, such as medical diagnosis, where base-rates and payoffs often differ and vary simultaneously. The second line of research examines perceptual and decisional attention processes in identification and categorization. Experiments are outlined that examine the effects of (a) attention cue and decision rule manipulations, as well as (b) stimulus property and response deadline manipulations on perceptual and decisional attention processes. To better understand the nature of these attention systems, attempts will be made to account simultaneously for accuracy and response time (RT) data within a single theoretical framework (e.g., Maddox & Ashby, 1996). To ensure stable estimates of the accuracy and RT data, each task will utilize a small number of unique stimuli (15-30) with 200-300 presentations of each stimulus in each condition. The approach is to apply a series of quantitative models that each embody specific hypotheses about the nature of, and interaction between, perceptual and decisional attention systems, and to compare these models with models derived from theories that do not distinguish between perceptual and decisional forms of attention (e.g., many exemplar-based models; Nosofsky, 1986). These studies are important because they will provide useful information about attention processes that are fundamental to nearly all types of human behavior.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Research Project (R01)
Project #
5R01MH059196-03
Application #
6343745
Study Section
Perception and Cognition Review Committee (PEC)
Program Officer
Kurtzman, Howard S
Project Start
1999-01-01
Project End
2001-12-31
Budget Start
2001-01-01
Budget End
2001-12-31
Support Year
3
Fiscal Year
2001
Total Cost
$125,555
Indirect Cost

  Institution

Name
University of Texas Austin
Department
Psychology
Type
Schools of Arts and Sciences
DUNS #
City
Austin
State
TX
Country
United States
Zip Code
78712

  Publications

Maddox, W Todd; Filoteo, J Vincent (2011) Stimulus range and discontinuity effects on information-integration category learning and generalization. Atten Percept Psychophys 73:1279-95
Maddox, W Todd; Glass, Brian D; O'Brien, Jeffrey B et al. (2010) Category label and response location shifts in category learning. Psychol Res 74:219-36
Filoteo, J Vincent; Lauritzen, Scott; Maddox, W Todd (2010) Removing the frontal lobes: the effects of engaging executive functions on perceptual category learning. Psychol Sci 21:415-23
Ell, Shawn W; Ing, A David; Maddox, W Todd (2009) Criterial noise effects on rule-based category learning: the impact of delayed feedback. Atten Percept Psychophys 71:1263-75
Zeithamova, Dagmar; Maddox, W Todd (2009) Learning mode and exemplar sequencing in unsupervised category learning. J Exp Psychol Learn Mem Cogn 35:731-41
Grimm, Lisa R; Markman, Arthur B; Maddox, W Todd et al. (2009) Stereotype threat reinterpreted as a regulatory mismatch. J Pers Soc Psychol 96:288-304
Maddox, W Todd; Love, Bradley C; Glass, Brian D et al. (2008) When more is less: feedback effects in perceptual category learning. Cognition 108:578-89
Worthy, Darrell A; Maddox, W Todd; Markman, Arthur B (2007) Regulatory fit effects in a choice task. Psychon Bull Rev 14:1125-32
Zeithamova, Dagmar; Maddox, W Todd (2007) The role of visuospatial and verbal working memory in perceptual category learning. Mem Cognit 35:1380-98
Maddox, W Todd; Lauritzen, J Scott; Ing, A David (2007) Cognitive complexity effects in perceptual classification are dissociable. Mem Cognit 35:885-94

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