Location via proxy:   [ UP ]  
[Report a bug]   [Manage cookies]                
skip to main content
10.1145/2540930.2540941acmconferencesArticle/Chapter ViewAbstractPublication PagesteiConference Proceedingsconference-collections
research-article

Evaluating peripheral interaction

Published: 16 February 2014 Publication History

Abstract

Peripheral interaction, like ambient information systems (AIS), aims at leveraging the periphery of our attention. While ambient information systems address the perception of information, peripheral interaction targets lightweight interaction outside of the current focus of attention. A number of prototypes have demonstrated the value of peripheral interaction through long-term in-situ deployments. Such studies are particularly suited to evaluate peripheral interaction since they enable the integration of devices into daily routines and thereby move interaction to the periphery of attention. However, they do not lend themselves well to early design phases. In fact, the design process completely lacks early evaluation tools to assess design choices.
We propose an experimental method for the evaluation of peripheral interaction in early design phases. In a case study, we compared the results of an eight-week in-situ deployment with the results of this laboratory experiment. We carried out the study with both, novice and experienced users (who had participated in the in-situ), and found comparable results across all three situations (in-situ and lab with novice and experienced users).

References

[1]
Bailey, B. P., Konstan, J. A. On the need for attention-aware systems: Measuring effects of interruption on task performance, error rate, and affective state. Computers in Human Behavior 22, 4, (2006), 685--708.
[2]
Bakker, S., van den Hoven, E., Eggen, B. Design for the periphery. Eurohaptics, (2010), 71--80.
[3]
Bakker, S., van den Hoven, E., Eggen, B., Overbeeke, K. Exploring peripheral interaction design for primary school teachers. TEI, (2012), 245--252.
[4]
Bakker, S., van den Hoven, E., Eggen, B. FireFlies: Supporting Primary School Teachers through Open-Ended Interaction Design. OzCHI, (2012).
[5]
Beaudouin-Lafon, M., Mackay, W. Prototyping Tools and Techniques. In Human Computer Interaction Handbook: Fundamentals. (2007).
[6]
Boff, K. R., Kaufman, L., Thomas, J. P. Handbook of perception and human performance. (1986).
[7]
Bogunovich, P. and Salvucci, D. The effects of time constraints on user behavior for deferrable interruptions. CHI, (2011), 3123--3126.
[8]
Dix, A. Evaluation Techniques. In Human-Computer Interaction. (2004).
[9]
Edge, D. and Blackwell, A. F. Peripheral tangible interaction by analytic design. TEI, (2009), 69--76.
[10]
Hausen, D., Boring, S., Lueling, C., Rodestock, S., Butz, A. StaTube: Facilitating state management in Instant Messaging Systems. TEI, (2012), 283--290.
[11]
Hausen, D., Richter, H., Hemme, A., Butz, A. Comparing Input Modalities for Peripheral Interaction: A Case Study on Peripheral Music Control. Interact, (2013), 162--179.
[12]
Hazlewood, W. R., Stolterman, E., Connelly, K. Issues in Evaluating Ambient Displays in the Wild: Two Case Studies. CHI, (2011), 877--886.
[13]
Hsieh, G. and Mankoff, J. A Comparison of Two Peripheral Displays for Monitoring Email: Measuring Usability, Awareness, and Distraction. Tech Report, (2003).
[14]
Kahneman, D. Attention and Effort. Prentice-Hall, 1973.
[15]
Mankoff, J., Dey, A. K., Hsieh, G., Kientz, J., Lederer, S., Ames, M. Heuristic Evaluation of Ambient Displays. CHI, (2003), 169--176.
[16]
Mark, G., Gudith, D., Klocke, U. The Cost of Interrupted Work: More Speed and Stress. CHI, (2008), 107--110.
[17]
Matthews, T. Designing and Evaluating Glanceable Peripheral Displays. PhD Thesis, (2007).
[18]
Matthews, T., Hsieh, G., and Mankoff, J. Evaluating Peripheral Displays. In Awareness systems: Advances in theory, methodology and design, (2009).
[19]
McCrickard, D. S., Chewar, C. M., Somervell, J. P., Ndiwalana, A. A model for notification systems evaluation - Assessing user goals for multitasking activity. CHI, (2003).
[20]
Olivera, F., García-Herranz, M., Haya, P. A., and Llinás, P. Do Not Disturb: Physical Interfaces for Parallel Peripheral Interactions. Interact, (2011), 479--486.
[21]
Pousman, Z. and Stasko, J. A Taxonomy of Ambient Information Systems: Four Patterns of Design. AVI, (2006).
[22]
Shen, X. An Evaluation Methodology for Ambient Displays. Journal of Engineering, Computing and Architecture 1, 2, (2007).
[23]
Stasko, J., McColgin, D., Miller, T., Plaue, C., and Pousman, Z. Evaluating the InfoCanvas Peripheral Awareness System: A Longitudinal, In Situ Study. Technical Report, (2005).
[24]
Visser, T., Vastenburg, M., Keyson, D. SnowGlobe: The Development of a Prototype Awareness System for Longitudinal Field Studies. DIS, (2010), 426--429.
[25]
Wensveen, S. A. G., Djajadiningrat, J. P., Overbeeke, C. J. Interaction frogger: a design framework to couple action and function through feedback and feedforward. DIS, (2004), 177--184.
[26]
Weiser, M., Brown, J. S. Designing Calm Technology. PowerGrid Journal, (1996).
[27]
Wickens, C. D., McCarley J. S. Applied Attention Theory. (2007).

Cited By

View all
  • (2023)Challenges and Opportunities for Multi-Device Management in ClassroomsACM Transactions on Computer-Human Interaction10.1145/351902529:6(1-27)Online publication date: 11-Jan-2023
  • (2023)The effects of graphical encodings on reading performance of the data chart displayed on the periphery of attentionDisplays10.1016/j.displa.2023.10237877(102378)Online publication date: Apr-2023
  • (2022)Investigation of Basic Characteristics of Awareness Presentation Using Gaze of a RobotProceedings of the Asian HCI Symposium 202210.1145/3516492.3558787(10-15)Online publication date: 29-Apr-2022
  • Show More Cited By

Index Terms

  1. Evaluating peripheral interaction

    Recommendations

    Comments

    Information & Contributors

    Information

    Published In

    cover image ACM Conferences
    TEI '14: Proceedings of the 8th International Conference on Tangible, Embedded and Embodied Interaction
    February 2014
    401 pages
    ISBN:9781450326353
    DOI:10.1145/2540930
    Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than ACM must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected]

    Sponsors

    Publisher

    Association for Computing Machinery

    New York, NY, United States

    Publication History

    Published: 16 February 2014

    Permissions

    Request permissions for this article.

    Check for updates

    Author Tags

    1. evaluation
    2. peripheral interaction

    Qualifiers

    • Research-article

    Conference

    TEI'14
    Sponsor:

    Acceptance Rates

    TEI '14 Paper Acceptance Rate 46 of 172 submissions, 27%;
    Overall Acceptance Rate 393 of 1,367 submissions, 29%

    Upcoming Conference

    TEI '25

    Contributors

    Other Metrics

    Bibliometrics & Citations

    Bibliometrics

    Article Metrics

    • Downloads (Last 12 months)39
    • Downloads (Last 6 weeks)5
    Reflects downloads up to 24 Dec 2024

    Other Metrics

    Citations

    Cited By

    View all
    • (2023)Challenges and Opportunities for Multi-Device Management in ClassroomsACM Transactions on Computer-Human Interaction10.1145/351902529:6(1-27)Online publication date: 11-Jan-2023
    • (2023)The effects of graphical encodings on reading performance of the data chart displayed on the periphery of attentionDisplays10.1016/j.displa.2023.10237877(102378)Online publication date: Apr-2023
    • (2022)Investigation of Basic Characteristics of Awareness Presentation Using Gaze of a RobotProceedings of the Asian HCI Symposium 202210.1145/3516492.3558787(10-15)Online publication date: 29-Apr-2022
    • (2022)Investigation the role of contrast on habituation and sensitisation effects in peripheral areas of graphical user interfacesScientific Reports10.1038/s41598-022-16284-212:1Online publication date: 10-Sep-2022
    • (2019)Research on Aesthetics of Interaction of Mobile Context-Aware Services——A Case Study of Notification SystemHuman-Computer Interaction. Perspectives on Design10.1007/978-3-030-22646-6_35(475-485)Online publication date: 27-Jun-2019
    • (2018)VirtualGraspProceedings of the 2018 CHI Conference on Human Factors in Computing Systems10.1145/3173574.3173652(1-13)Online publication date: 21-Apr-2018
    • (2018)Eyes-Free Target Acquisition in Interaction Space around the Body for Virtual RealityProceedings of the 2018 CHI Conference on Human Factors in Computing Systems10.1145/3173574.3173616(1-13)Online publication date: 21-Apr-2018
    • (2016)Bringing mobile into meetingsProceedings of the 18th International Conference on Human-Computer Interaction with Mobile Devices and Services10.1145/2935334.2935355(407-417)Online publication date: 6-Sep-2016
    • (2015)Facilitating peripheral interaction: design and evaluation of peripheral interaction for a gesture-based lighting control with multimodal feedbackPersonal and Ubiquitous Computing10.1007/s00779-015-0893-520:1(1-22)Online publication date: 14-Dec-2015
    • (2014)Everyday peripheral tasks vs. digital peripheral tasksCHI '14 Extended Abstracts on Human Factors in Computing Systems10.1145/2559206.2581271(2545-2550)Online publication date: 26-Apr-2014

    View Options

    Login options

    View options

    PDF

    View or Download as a PDF file.

    PDF

    eReader

    View online with eReader.

    eReader

    Media

    Figures

    Other

    Tables

    Share

    Share

    Share this Publication link

    Share on social media