Natural Pursuits for Eye Tracker Calibration

Michaela Murauer; Michael Haslgrübler-Huemer; Alois Ferscha

doi:10.1145/3266157.3266207

Natural Pursuits for Eye Tracker Calibration

Michaela Murauer
, Michael Haslgrübler-Huemer
, Alois Ferscha

Institute of Pervasive Computing

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

Although, gaze-based interaction has been investigated since the 1980s and provides promising concepts to realize cognitive systems and support universal interaction within distributed environments, the main challenges, such as the Midas touch problem [16] or calibration are still frequent topics of research. In this work, Natural Pursuit Calibration is presented, which is a comfortable, unobtrusive technique enabling ongoing attention detection and eye tracker calibration within an off-screen context. The user is able to perform calibration, without a digital user interface, artificial annotation of the environment nor further assistance, by simply following any arbitrary moving target. Due to the characteristics of the calibration process, it can be executed simultaneously to any primary task, without active user participation. A two-stage evaluation process is conducted to (i) optimize parameter settings in a first setup and (ii) compare the accuracy as well as the user acceptance of the proposed procedure to prevailing calibration techniques.

Original language	English
Title of host publication	iWOAR '18 Proceedings of the 5th international Workshop on Sensor-based Activity Recognition and Interaction
Editors	Marian Haescher, Kristina Yordanova, Max Schroder, Gerald Bieber, Bodo Urban, Denys J.C. Matthies, Thomas Kirste
Place of Publication	New York
Publisher	ACM
Number of pages	10
ISBN (Electronic)	9781450364874
DOIs	https://doi.org/10.1145/3266157.3266207
Publication status	Published - Sept 2018

Fields of science

102 Computer Sciences
102009 Computer simulation
102013 Human-computer interaction
102019 Machine learning
102021 Pervasive computing
102022 Software development
102025 Distributed systems

JKU Focus areas

Computation in Informatics and Mathematics
Engineering and Natural Sciences (in general)

Access to Document

10.1145/3266157.3266207

Cite this

Murauer, M., Haslgrübler-Huemer, M., & Ferscha, A. (2018). Natural Pursuits for Eye Tracker Calibration. In M. Haescher, K. Yordanova, M. Schroder, G. Bieber, B. Urban, D. J. C. Matthies, & T. Kirste (Eds.), iWOAR '18 Proceedings of the 5th international Workshop on Sensor-based Activity Recognition and Interaction Article a3 ACM. https://doi.org/10.1145/3266157.3266207

Murauer, Michaela ; Haslgrübler-Huemer, Michael ; Ferscha, Alois. / Natural Pursuits for Eye Tracker Calibration. iWOAR '18 Proceedings of the 5th international Workshop on Sensor-based Activity Recognition and Interaction. editor / Marian Haescher ; Kristina Yordanova ; Max Schroder ; Gerald Bieber ; Bodo Urban ; Denys J.C. Matthies ; Thomas Kirste. New York : ACM, 2018.

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title = "Natural Pursuits for Eye Tracker Calibration",

abstract = "Although, gaze-based interaction has been investigated since the 1980s and provides promising concepts to realize cognitive systems and support universal interaction within distributed environments, the main challenges, such as the Midas touch problem [16] or calibration are still frequent topics of research. In this work, Natural Pursuit Calibration is presented, which is a comfortable, unobtrusive technique enabling ongoing attention detection and eye tracker calibration within an off-screen context. The user is able to perform calibration, without a digital user interface, artificial annotation of the environment nor further assistance, by simply following any arbitrary moving target. Due to the characteristics of the calibration process, it can be executed simultaneously to any primary task, without active user participation. A two-stage evaluation process is conducted to (i) optimize parameter settings in a first setup and (ii) compare the accuracy as well as the user acceptance of the proposed procedure to prevailing calibration techniques.",

author = "Michaela Murauer and Michael Haslgr{\"u}bler-Huemer and Alois Ferscha",

year = "2018",

month = sep,

doi = "10.1145/3266157.3266207",

language = "English",

editor = "Marian Haescher and Kristina Yordanova and Max Schroder and Gerald Bieber and Bodo Urban and Matthies, \{Denys J.C.\} and Thomas Kirste",

booktitle = "iWOAR '18 Proceedings of the 5th international Workshop on Sensor-based Activity Recognition and Interaction",

publisher = "ACM",

}

Natural Pursuits for Eye Tracker Calibration. / Murauer, Michaela; Haslgrübler-Huemer, Michael; Ferscha, Alois.
iWOAR '18 Proceedings of the 5th international Workshop on Sensor-based Activity Recognition and Interaction. ed. / Marian Haescher; Kristina Yordanova; Max Schroder; Gerald Bieber; Bodo Urban; Denys J.C. Matthies; Thomas Kirste. New York: ACM, 2018. a3.

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

TY - GEN

T1 - Natural Pursuits for Eye Tracker Calibration

AU - Murauer, Michaela

AU - Haslgrübler-Huemer, Michael

AU - Ferscha, Alois

PY - 2018/9

Y1 - 2018/9

N2 - Although, gaze-based interaction has been investigated since the 1980s and provides promising concepts to realize cognitive systems and support universal interaction within distributed environments, the main challenges, such as the Midas touch problem [16] or calibration are still frequent topics of research. In this work, Natural Pursuit Calibration is presented, which is a comfortable, unobtrusive technique enabling ongoing attention detection and eye tracker calibration within an off-screen context. The user is able to perform calibration, without a digital user interface, artificial annotation of the environment nor further assistance, by simply following any arbitrary moving target. Due to the characteristics of the calibration process, it can be executed simultaneously to any primary task, without active user participation. A two-stage evaluation process is conducted to (i) optimize parameter settings in a first setup and (ii) compare the accuracy as well as the user acceptance of the proposed procedure to prevailing calibration techniques.

AB - Although, gaze-based interaction has been investigated since the 1980s and provides promising concepts to realize cognitive systems and support universal interaction within distributed environments, the main challenges, such as the Midas touch problem [16] or calibration are still frequent topics of research. In this work, Natural Pursuit Calibration is presented, which is a comfortable, unobtrusive technique enabling ongoing attention detection and eye tracker calibration within an off-screen context. The user is able to perform calibration, without a digital user interface, artificial annotation of the environment nor further assistance, by simply following any arbitrary moving target. Due to the characteristics of the calibration process, it can be executed simultaneously to any primary task, without active user participation. A two-stage evaluation process is conducted to (i) optimize parameter settings in a first setup and (ii) compare the accuracy as well as the user acceptance of the proposed procedure to prevailing calibration techniques.

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DO - 10.1145/3266157.3266207

M3 - Conference proceedings

BT - iWOAR '18 Proceedings of the 5th international Workshop on Sensor-based Activity Recognition and Interaction

A2 - Haescher, Marian

A2 - Yordanova, Kristina

A2 - Schroder, Max

A2 - Bieber, Gerald

A2 - Urban, Bodo

A2 - Matthies, Denys J.C.

A2 - Kirste, Thomas

PB - ACM

CY - New York

ER -

Natural Pursuits for Eye Tracker Calibration

Abstract

Fields of science

JKU Focus areas

Access to Document

Other files and links

Pro2Future - Products and Production Systems of the Future

EyeControl: Eye-Controlled Machines

Cite this

Natural Pursuits for Eye Tracker Calibration

Abstract

Fields of science

JKU Focus areas

Access to Document

Other files and links

Projects

Pro2Future - Products and Production Systems of the Future

EyeControl: Eye-Controlled Machines

Cite this