Abstract
The main research goal is to define relevant design guidelines to implement gaze control interaction in future products. The present work describes the approach for a holistic categorization of design parameters for gaze-controlled control elements. This categorization represents the result of various studies which have been conducted at the adaptive gaze control test bench. The test bench is equipped with a remote eye tracker and a freely adaptable interface to systematically analyze the presentation and influence of defined information content and parameters through HMI. The focus of the current investigation is the gathering of further specifications of embedded design parameters divided in design parameters of the gestalt and the operating characteristic. The present studies provide further conclusions to design parameters of specific continual interaction tasks using gaze control as shown exemplary on a translational gaze-controlled virtual control element.
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References
Bullinger, H., Solf, J.: Ergonomische Arbeitsmittelgestaltung II. Handgeführte Werkzeuge - Fallstudien. Bremerhaven: Wirtschaftsverl. Forschungsbericht/Bundesanstalt für Arbeitsschutz und Unfallforschung, pp. 197. Dortmund (1979)
Seeger, H.: Design technischer Produkte, Produktprogramme und -systeme. Industrial Design Engineering, vol. 2. Springer, Heidelberg (2006)
Kowler, E., Blaser, E.: The accuracy and precision of saccades to small and large targets. Vision Res. 35(12), 1741–1754 (1994). Elsevier Science Ltd. Printed, Great Britain
Jacob, R.: Eye movement-based human-computer interaction techniques: toward non-command interfaces. In: CHI 1990: Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, vol. 9(2), pp. 152–169. Chew, ACM, New York (1991)
Leigh, J., Zee, D.: The Neurology of Eye Movements. Oxford University Press, Oxford (2015)
Botta, A.: Quantifizierung der visuellen Größenkodierung und des Informationsgehalts zweidimensionaler Objekte auf Basis der Blickinteraktion. Dissertation, Institute for Engineering Design and Industrial Design, University of Stuttgart, Stuttgart (2016)
Hinckley, K., Pausch, R., Goble, J., Kassel, N.: A survey of design issues in spatial input. In: Proceedings of the 7th Annual ACM Symposium on User Interface Software and Technology, UIST 1994, Marina del Rey, California, USA, pp. 213–222 (1994)
Rizzolatti, G., Riggio, L., Dascola, I., Umiltá, C.: Reorienting attention across the horizontal and vertical meridians: evidence in favor of a premotor theory of attention. Neuropsychologia 25(1, Part 1), 31–40 (1987)
Vickers, S., Howell, I., Hyrskykari, A., Bates, R.: Keeping an eye on the game: eye gaze interaction with massively multiplayer online games and virtual communities for motor impaired users. In: Proceedings of the ICDVRAT 2008, Maia, pp. 159–166 (2008)
Jenke, M., Weihsbach, C., Maier, T.: Untersuchung virtueller Stellgrößen einer kontinuierlichen Blicksteuerung zur Mensch-Maschine-Interaktion unter Berücksichtigung der kognitiven Belastung. Soziotechnische Gestaltung des digitalen Wandels – kreativ, innovativ, sinnhaft; 63. Kongress der Gesellschaft für Arbeitswissenschaft e.V., Dortmund: GfA-Press, Brugg-Windisch (2017)
Petrov, A.: Usability-Optimierung durch adaptive Bediensysteme. Dissertation, Institute for Engineering Design and Industrial Design, University of Stuttgart, Stuttgart (2012)
Zühlke, D.: Nutzergerechte Entwicklung von Mensch-Maschine-Systemen – Useware-Engineering für technische Systeme, vol. 2. Springer, Heidelberg (2012)
Majaranta, P., MacKenzie, S., Aula, A., Raiha, K.: Effects of feedback and dwell time on eye typing speed and accuracy. Univ. Access Inf. Soc. 5(2), 199–208 (2006)
Gu, E., Badler, N.: Visual attention and eye gaze during multiparty conversations with distractions. In: International Workshop on Intelligent Virtual Agents IVA 2006: Intelligent Virtual Agents, pp. 193–204 (2006)
Berry, D.: The user experience: developerWorks, IBM, internet (2000). https://pdfs.semanticscholar.org/4183/86bf5df20cf7f6e3a16b8b11d75492552ee1.pdf. Accessed 11 Mar 2017
Garlitz, W.O.: The Essential Guide to User Interface Design: An Introduction to GUI Design Principles and Techniques. Wiley, New York (1997)
Anthes, C., Heinzlreiter, P., Kurka, G., Volkert, J.: Navigation models for a flexible, multi-mode VR navigation framework. In: Proceedings VRCAI 2004, ACM SIGGRAPH International Conference on Virtual Reality Continuum and Its Applications in Industry. Nanyang Technological University, Singapore (2004)
Kenneth, P., van Dam, A., Gleicher, M.: The challenges of 3D interaction. A CHI 1994 workshop. ACM SIGCHI Bulletin 26(4), 36–43 (1994). ACM, New York
Bowmann, D., Koller, D., Hodges, L.: Travel in immersive virtual environments: an evaluation of viewpoint motion control techniques. In: Proceedings of the 1997 Virtual Reality Annual International Symposium, VRAIS 1997, p. 45 (1997)
Ware, C.; Osborne, S.: Exploration and virtual camera control in virtual three dimensional environments. In: Proceedings of the 1990 Symposium on Interactive 3D Graphics, I3D 1990, pp. 175–183 (1990)
Smith, D., Irby, C., Kimball, R., Verplank, B., Harslem, E.: Designing the star user interface. In: Perspectives on the Computer Revolution, pp. 261–283. Ablex Publishing Corp., Norwood (1982)
Rudolf, C.: Handbuch Software-Ergonomie: Usability Engineering. vol. 2, Unfallkasse Post und Telekom (2006)
DIN EN ISO 14915-2:2003-11: Software ergonomics for multimedia user interfaces - Part 2: Multimedia navigation and control (2003)
Bertin, J.: Sémiologie Graphique. Editions Gauthier-Villars, Paris (1974). German translation: Jensch, G., et al.: Graphische Semiologie. Diagramme – Netze - Karten. Walter de Gruyter, Berlin
Mackinlay, J.: Automating the design of graphical presentations of relational information. ACM Trans. Graphics (Tog) 5, 110–141 (1986)
Kammerer, Y., Scheiter, K., Beinhauer, W.: Looking my way through the menu: the impact of menu design and multimodal input on gaze-based menu selection. In: Conference: Proceedings of the Eye Tracking Research & Application Symposium, ETRA 2008, Savannah, Georgia, USA (2008)
Janny, B., Winterholler, J., Grünberg, F., Maier, T.: Altersgerechte Personalisierungsmög-lichkeiten von physischen Mensch-Maschine-Schnittstellen mittels Parametrisierung. In: Gesellschaft für Arbeitswissenschaft (GfA) e.V.: Zeitschrift für Arbeitswissenschaft: Ergonomia (2017). Under review
Aaron, M.: Icon design requires clarity, consistency. Comput. Graphics Today 1(5), 478 (1984)
Tversky, A., Kahneman, D.: Judgment under uncertainty – Heuristics and biases. Science 185, 1124–1131 (1974)
Nielsen, J.: Noncommand user interfaces. Commun. ACM 36(4), 83–99 (1993). Special issue on graphical user interfaces CACM Homepage archive, New York, NY, USA
Gyung, T., Inderbir, G.: Robotic laparoscopic surgery: a comparison of the da Vinci and Zeus systems. Urology 58(6), 893–898 (2001)
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Jenke, M., Maier, T. (2018). What Does the Eye Want? An Investigation of Interface Parameters to Ensure Intuitive Gaze-Controlled Interactions for Multidimensional Inputs. In: Ahram, T., Falcão, C. (eds) Advances in Usability and User Experience. AHFE 2017. Advances in Intelligent Systems and Computing, vol 607. Springer, Cham. https://doi.org/10.1007/978-3-319-60492-3_1
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