Functionally sequenced scanpath similarity method (FuncSim): Comparing and evaluating scanpath similarity based on a task’s inherent sequence of functional (action) units

Foerster, Rebecca M.; Schneider, Werner X.

Functionally sequenced scanpath similarity method (FuncSim): Comparing and evaluating scanpath similarity based on a task’s inherent sequence of functional (action) units

Foerster RM, Schneider WX (2013)
Journal of Eye Movement Research 6(5): 1-22: 4.

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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FuncSim

URL

https://bop.unibe.ch/JEMR/article/view/2368/3564

DOI

https://doi.org/10.16910/jemr.6.5.4

URN

urn:nbn:de:0070-pub-26415037

Autor*in

Foerster, Rebecca M.^UniBi ; Schneider, Werner X.^UniBi

Einrichtung

Fakultät für Psychologie und Sportwissenschaft > Abteilung für Psychologie > Arbeitseinheit 01 - Neurokognitive Psychologie
Center of Excellence - Cognitive Interaction Technology CITEC

Forschungsgruppe

Learning to attend in sensorimotor task

Abstract / Bemerkung

Measures of scanpath similarity are essential in many domains of eye tracking research. Depending on the question, different calculations are adequate. We (Foerster, Carbone, Koesling, & Schneider, 2011) developed a method with a functional matching procedure suitable for sequential tasks. Here, we report two extensions. We introduced an alignment variant making the method more robust across tasks. We added the possibility to compare scanpaths according to multiple characteristics. The extended method, here called “functionally sequenced scanpath similarity method (FuncSim)” reveals whether gaze characteristics are similar in the same functional units of a task, opposed to when participants are engaged in different functional units. Finally, the advantages of our method are presented and compared to other methods of scanpath similarity calculation.

Erscheinungsjahr

2013

Zeitschriftentitel

Journal of Eye Movement Research

Band

Ausgabe

Art.-Nr.

Seite(n)

1-22

eISSN

1995-8692

Page URI

https://pub.uni-bielefeld.de/record/2641503

Zitieren

Foerster RM, Schneider WX. Functionally sequenced scanpath similarity method (FuncSim): Comparing and evaluating scanpath similarity based on a task’s inherent sequence of functional (action) units. Journal of Eye Movement Research. 2013;6(5):1-22: 4.

Foerster, R. M., & Schneider, W. X. (2013). Functionally sequenced scanpath similarity method (FuncSim): Comparing and evaluating scanpath similarity based on a task’s inherent sequence of functional (action) units. Journal of Eye Movement Research, 6(5), 1-22., 4. https://doi.org/10.16910/jemr.6.5.4

Foerster, Rebecca M., and Schneider, Werner X. 2013. “Functionally sequenced scanpath similarity method (FuncSim): Comparing and evaluating scanpath similarity based on a task’s inherent sequence of functional (action) units”. Journal of Eye Movement Research 6 (5): 1-22: 4.

Foerster, R. M., and Schneider, W. X. (2013). Functionally sequenced scanpath similarity method (FuncSim): Comparing and evaluating scanpath similarity based on a task’s inherent sequence of functional (action) units. Journal of Eye Movement Research 6, 1-22:4.

Foerster, R.M., & Schneider, W.X., 2013. Functionally sequenced scanpath similarity method (FuncSim): Comparing and evaluating scanpath similarity based on a task’s inherent sequence of functional (action) units. Journal of Eye Movement Research, 6(5), p 1-22: 4.

R.M. Foerster and W.X. Schneider, “Functionally sequenced scanpath similarity method (FuncSim): Comparing and evaluating scanpath similarity based on a task’s inherent sequence of functional (action) units”, Journal of Eye Movement Research, vol. 6, 2013, pp. 1-22, : 4.

Foerster, R.M., Schneider, W.X.: Functionally sequenced scanpath similarity method (FuncSim): Comparing and evaluating scanpath similarity based on a task’s inherent sequence of functional (action) units. Journal of Eye Movement Research. 6, 1-22 : 4 (2013).

Foerster, Rebecca M., and Schneider, Werner X. “Functionally sequenced scanpath similarity method (FuncSim): Comparing and evaluating scanpath similarity based on a task’s inherent sequence of functional (action) units”. Journal of Eye Movement Research 6.5 (2013): 1-22: 4.

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