Generalizations of the race model inequality

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Standard

Generalizations of the race model inequality. / Gondan, Matthias; Blurton, Steven Paul.

I: Multisensory Research, Bind 26, Nr. 1-2, 01.01.2013, s. 95-122.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Gondan, M & Blurton, SP 2013, 'Generalizations of the race model inequality', Multisensory Research, bind 26, nr. 1-2, s. 95-122. https://doi.org/10.1163/22134808-00002408

APA

Gondan, M., & Blurton, S. P. (2013). Generalizations of the race model inequality. Multisensory Research, 26(1-2), 95-122. https://doi.org/10.1163/22134808-00002408

Vancouver

Gondan M, Blurton SP. Generalizations of the race model inequality. Multisensory Research. 2013 jan. 1;26(1-2):95-122. https://doi.org/10.1163/22134808-00002408

Author

Gondan, Matthias ; Blurton, Steven Paul. / Generalizations of the race model inequality. I: Multisensory Research. 2013 ; Bind 26, Nr. 1-2. s. 95-122.

Bibtex

@article{d56b985505614f05b34a6b35f9b51631,
title = "Generalizations of the race model inequality",
abstract = "In redundant signals tasks, participants respond in the same way to two different stimuli which are presented either alone or in combination (redundant stimuli). Responses to redundant stimuli are typically faster than responses to single stimuli. Different explanations account for such redundancy gains, including race models and coactivation models. Race models predict that the cumulative response time distribution for the redundant stimuli never exceeds the summed distributions of the single stimuli (race model inequality, RMI, Miller, 1982). Based on work by Townsend and Nozawa (1995) we demonstrate that the RMI is a special case of a more general interaction contrast of response time distributions for stimuli of different intensity, or stimuli presented with onset asynchrony. The generalization of the RMI is, thus, suited for a much wider class of experiments than the standard setup in which response times for single stimuli are compared to those for double stimuli. Moreover, predictions can be derived not only for the race model, but for serial, parallel, and coactive processing modes with different stopping rules. Compared to the standard RMI, statistical power of these interaction contrasts is satisfactory, even for small onset asynchronies.",
author = "Matthias Gondan and Blurton, {Steven Paul}",
year = "2013",
month = jan,
day = "1",
doi = "10.1163/22134808-00002408",
language = "English",
volume = "26",
pages = "95--122",
journal = "Multisensory Research",
issn = "2213-4794",
publisher = "Brill",
number = "1-2",

}

RIS

TY - JOUR

T1 - Generalizations of the race model inequality

AU - Gondan, Matthias

AU - Blurton, Steven Paul

PY - 2013/1/1

Y1 - 2013/1/1

N2 - In redundant signals tasks, participants respond in the same way to two different stimuli which are presented either alone or in combination (redundant stimuli). Responses to redundant stimuli are typically faster than responses to single stimuli. Different explanations account for such redundancy gains, including race models and coactivation models. Race models predict that the cumulative response time distribution for the redundant stimuli never exceeds the summed distributions of the single stimuli (race model inequality, RMI, Miller, 1982). Based on work by Townsend and Nozawa (1995) we demonstrate that the RMI is a special case of a more general interaction contrast of response time distributions for stimuli of different intensity, or stimuli presented with onset asynchrony. The generalization of the RMI is, thus, suited for a much wider class of experiments than the standard setup in which response times for single stimuli are compared to those for double stimuli. Moreover, predictions can be derived not only for the race model, but for serial, parallel, and coactive processing modes with different stopping rules. Compared to the standard RMI, statistical power of these interaction contrasts is satisfactory, even for small onset asynchronies.

AB - In redundant signals tasks, participants respond in the same way to two different stimuli which are presented either alone or in combination (redundant stimuli). Responses to redundant stimuli are typically faster than responses to single stimuli. Different explanations account for such redundancy gains, including race models and coactivation models. Race models predict that the cumulative response time distribution for the redundant stimuli never exceeds the summed distributions of the single stimuli (race model inequality, RMI, Miller, 1982). Based on work by Townsend and Nozawa (1995) we demonstrate that the RMI is a special case of a more general interaction contrast of response time distributions for stimuli of different intensity, or stimuli presented with onset asynchrony. The generalization of the RMI is, thus, suited for a much wider class of experiments than the standard setup in which response times for single stimuli are compared to those for double stimuli. Moreover, predictions can be derived not only for the race model, but for serial, parallel, and coactive processing modes with different stopping rules. Compared to the standard RMI, statistical power of these interaction contrasts is satisfactory, even for small onset asynchronies.

U2 - 10.1163/22134808-00002408

DO - 10.1163/22134808-00002408

M3 - Journal article

AN - SCOPUS:84879190268

VL - 26

SP - 95

EP - 122

JO - Multisensory Research

JF - Multisensory Research

SN - 2213-4794

IS - 1-2

ER -

ID: 50617883