PalmSpace: Continuous Around-Device Gestures vs. Multitouch for 3D Rotation Tasks on Mobile Devices

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • Sven Kratz
  • Michael Rohs
  • Dennis Guse
  • Jörg Müller
  • Gilles Bailly
  • Michael Nischt

Externe Organisationen

  • Ludwig-Maximilians-Universität München (LMU)
  • Technische Universität Berlin
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des SammelwerksAVI '12
UntertitelProceedings of the International Working Conference on Advanced Visual Interfaces
Seiten181-188
Seitenumfang8
PublikationsstatusVeröffentlicht - 21 Mai 2012
Extern publiziertJa
Veranstaltung2012 International Working Conference on Advanced Visual Interfaces, AVI 2012 - Capri Island, Italien
Dauer: 21 Mai 201225 Mai 2012

Abstract

Rotating 3D objects is a difficult task on mobile devices, because the task requires 3 degrees of freedom and (multi-)touch input only allows for an indirect mapping. We propose a novel style of mobile interaction based on mid-air gestures in proximity of the device to increase the number of DOFs and alleviate the limitations of touch interaction with mobile devices. While one hand holds the device, the other hand performs mid-air gestures in proximity of the device to control 3D objects on the mobile device's screen. A flat hand pose defines a virtual surface which we refer to as the PalmSpace for precise and intuitive 3D rotations. We constructed several hardware prototypes to test our interface and to simulate possible future mobile devices equipped with depth cameras. We conducted a user study to compare 3D rotation tasks using the most promising two designs for the hand location during interaction - behind and beside the device - with the virtual trackball, which is the current state-of-art technique for orientation manipulation on touch-screens. Our results show that both variants of PalmSpace have significantly lower task completion times in comparison to the virtual trackball.

ASJC Scopus Sachgebiete

Zitieren

PalmSpace: Continuous Around-Device Gestures vs. Multitouch for 3D Rotation Tasks on Mobile Devices. / Kratz, Sven; Rohs, Michael; Guse, Dennis et al.
AVI '12: Proceedings of the International Working Conference on Advanced Visual Interfaces. 2012. S. 181-188.

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Kratz, S, Rohs, M, Guse, D, Müller, J, Bailly, G & Nischt, M 2012, PalmSpace: Continuous Around-Device Gestures vs. Multitouch for 3D Rotation Tasks on Mobile Devices. in AVI '12: Proceedings of the International Working Conference on Advanced Visual Interfaces. S. 181-188, 2012 International Working Conference on Advanced Visual Interfaces, AVI 2012, Capri Island, Italien, 21 Mai 2012. https://doi.org/10.1145/2254556.2254590
Kratz, S., Rohs, M., Guse, D., Müller, J., Bailly, G., & Nischt, M. (2012). PalmSpace: Continuous Around-Device Gestures vs. Multitouch for 3D Rotation Tasks on Mobile Devices. In AVI '12: Proceedings of the International Working Conference on Advanced Visual Interfaces (S. 181-188) https://doi.org/10.1145/2254556.2254590
Kratz S, Rohs M, Guse D, Müller J, Bailly G, Nischt M. PalmSpace: Continuous Around-Device Gestures vs. Multitouch for 3D Rotation Tasks on Mobile Devices. in AVI '12: Proceedings of the International Working Conference on Advanced Visual Interfaces. 2012. S. 181-188 doi: 10.1145/2254556.2254590
Kratz, Sven ; Rohs, Michael ; Guse, Dennis et al. / PalmSpace : Continuous Around-Device Gestures vs. Multitouch for 3D Rotation Tasks on Mobile Devices. AVI '12: Proceedings of the International Working Conference on Advanced Visual Interfaces. 2012. S. 181-188
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abstract = "Rotating 3D objects is a difficult task on mobile devices, because the task requires 3 degrees of freedom and (multi-)touch input only allows for an indirect mapping. We propose a novel style of mobile interaction based on mid-air gestures in proximity of the device to increase the number of DOFs and alleviate the limitations of touch interaction with mobile devices. While one hand holds the device, the other hand performs mid-air gestures in proximity of the device to control 3D objects on the mobile device's screen. A flat hand pose defines a virtual surface which we refer to as the PalmSpace for precise and intuitive 3D rotations. We constructed several hardware prototypes to test our interface and to simulate possible future mobile devices equipped with depth cameras. We conducted a user study to compare 3D rotation tasks using the most promising two designs for the hand location during interaction - behind and beside the device - with the virtual trackball, which is the current state-of-art technique for orientation manipulation on touch-screens. Our results show that both variants of PalmSpace have significantly lower task completion times in comparison to the virtual trackball.",
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