Human-Centered Design and Evaluation of a NeuroIS Tool for Flow Support

被引：0

作者：

Adam, Marc T. P. ^{[1
]}

Bonenberger, Lukas ^{[2
]}

Gimpel, Henner ^{[3
]}

Lanzl, Julia ^{[4
]}

机构：

[1] School of Information and Physical Sciences, University of Newcastle

[2] Technical University of Applied Sciences Augsburg, FIM Research Center / Branch Business & Information Systems Engineering of Fraunhofer FIT / University of Hohenheim, Chair of Digital Management

[3] University of Hohenheim, Branch Business & Information Systems Engineering of Fraunhofer FIT/ FIM Research Center

[4] University of Hohenheim, Chair of Digital Management / Branch Business & Information Systems Engineering of Fraunhofer FIT / FIM Research Center

来源：

Journal of the Association for Information Systems | 2024年 / 25卷 / 04期

关键词：

Design Science Research; Flow; IT-Mediated Interruptions; NeuroIS;

D O I：

10.17705/1JAIS.00855

中图分类号：

学科分类号：

摘要：

Flow is a mental state in which a person is fully immersed and actively involved in a task, even during extrinsically motivated activities at work. IT-mediated interruptions can disrupt flow, with ramifications for workers’ well-being and work performance. In this design science research paper, we develop and evaluate design knowledge for neuroadaptive flow support systems. Building on foundations in flow theory, we conduct expert interviews and present a conceptual framework, three meta-requirements, and five design principles for flow support systems. We then implement the design principles in three prototypes and evaluate these prototypes in a lab experiment and a field study. With this paper on flow and IT-mediated interruptions in the work domain, we present an approach toward flow support systems that enable intelligent interruption management. © 2024 by the Association for Information Systems.

引用

页码：936 / 961

页数：25

共 99 条

[1]

Adam M. T. P., Gregor S., Hevner A., Morana S., Design science research modes in human-computer interaction projects, AIS Transactions on Human-Computer Interaction, 13, 1, pp. 1-11, (2021)

[2]

Addas S., Pinsonneault A., The many faces of information technology interruptions: A taxonomy and preliminary investigation of their performance effects, Information Systems Journal, 25, 3, pp. 231-273, (2015)

[3]

Addas S., Pinsonneault A., E-mail interruptions and individual performance: Is there a silver lining?, MIS Quarterly, 42, 2, pp. 381-405, (2018)

[4]

Agarwal R., Karahanna E., Time flies when you’re having fun: Cognitive absorption and beliefs about information technology usage, MIS Quarterly, 24, 4, pp. 665-694, (2000)

[5]

Ahmad M. I., Keller I., Robb D. A., Lohan K. S., A framework to estimate cognitive load using physiological data, Personal and Ubiquitous Computing, 27, 6, pp. 2027-2041, (2020)

[6]

Al Osman H., Dong H., El Saddik A., Ubiquitous biofeedback serious game for stress management, IEEE Access, 4, pp. 1274-1286, (2016)

[7]

Al Osman H., Eid M., El Saddik A., U-biofeedback: A multimedia-based reference model for ubiquitous biofeedback systems, Multimedia Tools and Applications, 72, 3, pp. 3143-3168, (2013)

[8]

Bandura A., Social cognitive theory of self-regulation, Organizational Behavior and Human Decision Processes, 50, 2, pp. 248-287, (1991)

[9]

Belanger, Crossler, Privacy in the digital age: A review of information privacy research in information systems, MIS Quarterly, 35, 4, (2011)

[10]

Berta R., Bellotti F., Gloria A., Pranantha D., Schatten C., Electroencephalogram and physiological signal analysis for assessing flow in games, IEEE Transactions on Computational Intelligence and AI in Games, 5, 2, pp. 164-175, (2013)

← 1 2 3 4 5 6 7 8 9 10 →