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CADLens: Haptic Feedback for Navigating in 3D Environments

Published: 10 June 2017 Publication History

Abstract

CADLens is a tangible input device with haptic feedback for navigating three dimensional Computer-Aided Design (CAD) environments. CADLens is intended to provide more intuitive controls with a low barrier of entry for first time or less experienced CAD users. Navigation in the CAD environment is possible through manipulating the physical controller with guidance provided through haptic force feedback. In CAD environments, a common viewport used by designers is the perspective viewport camera - CADLens represents the virtual camera position through its synchronized physical form which the user can move, zoom, and rotate. We conducted a study with 10 users in which participants were asked to complete navigation tasks using a model of a building. Users were able to successfully complete the navigation tasks and through contextual interviews provided feedback for system improvements.

References

[1]
Sherif Abdelmohsen and Ellen Yi-Luen Do. 2007. TangiCAD: Tangible Interface for Manipulating Architectural 3D Models. In Proc. CAADRIA '07.
[2]
Ryan Arisandi, Yusuke Takami, Mai Otsuki, Asako Kimura, Fumihisa Shibata, and Hideyuki Tamura. 2012. Enjoying virtual handcrafting with ToolDevice. In Proc. UIST '12. 17--18.
[3]
Edgar Berdahl, Julius O. Smith, Stefan Weinzierl, and Gunter Niemeyer. 2013. Force Sensitive Detents Improve User Performance for Linear Selection Tasks. IEEE Transactions on Haptics 6, 2 (2013), 206--216.
[4]
Bernd Fröhlich and John Plate. 2000. The cubic mouse: a new device for three-dimensional input. In Proc. CHI '00. 526--531.
[5]
Tovi Grossman, Ravin Balakrishnan, and Karan Singh. 2003. An interface for creating and manipulating curves using a high degree-offreedom curve input device. In Proc. CHI '03. 185--192.
[6]
Alec Jacobson, Daniele Panozzo, Oliver Glauser, Cédric Pradalier, Otmar Hilliges, and Olga Sorkine-Hornung. 2014. Tangible and modular input device for character articulation. In Proc. SIGGRAPH '14. Article 24, 1 pages.
[7]
Steven Schkolne, Michael Pruett, and Peter Schröder. 2001. Surface drawing: creating organic 3D shapes with the hand and tangible tools. In Proc. CHI '01. 261--268.
[8]
André Schmidt, Mads Kleemann, Timothy Merritt, and Ted Selker. 2015. Tactile Communication in Extreme Contexts: Exploring the Design Space Through Kiteboarding. Human-Computer Interaction -- INTERACT 2015 LNCS (2015), 37--54.
[9]
Jia Sheng, Ravin Balakrishnan, and Karan Singh. 2006. An interface for virtual 3D sculpting via physical proxy. In Proc. GRAPHITE '06. 213--220.
[10]
Hyunyoung Song, François Guimbretière, Chang Hu, and Hod Lipson. 2006. ModelCraft: capturing freehand annotations and edits on physical 3D models. In Proc. UIST '06. 13--22.
[11]
Christian Weichel, Manfred Lau, David Kim, Nicolas Villar, and Hans W. Gellersen. 2014. MixFab: a mixed-reality environment for personal fabrication. In Proc. CHI '14. 38553864.
[12]
Spacemouse Wireless by 3Dconnexion. 2017. Retrieved March 15, 2017 from http://www.3dconnexion.eu/products/spacemouse/spacemousewireless.html

Cited By

View all
  • (2022)Tangible Self-Report Devices: Accuracy and Resolution of Participant InputProceedings of the Sixteenth International Conference on Tangible, Embedded, and Embodied Interaction10.1145/3490149.3501309(1-14)Online publication date: 13-Feb-2022
  • (2020)I-nteract: A Cyber-Physical System for Real-Time Interaction With Physical and Virtual Objects Using Mixed Reality Technologies for Additive ManufacturingIEEE Access10.1109/ACCESS.2020.29975338(98761-98774)Online publication date: 2020
  • (2019)Augmented Reality, Cyber-Physical Systems, and Feedback Control for Additive Manufacturing: A ReviewIEEE Access10.1109/ACCESS.2019.29072877(50119-50135)Online publication date: 2019
  • Show More Cited By

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  1. CADLens: Haptic Feedback for Navigating in 3D Environments

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    Information & Contributors

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    Published In

    cover image ACM Conferences
    DIS '17 Companion: Proceedings of the 2017 ACM Conference Companion Publication on Designing Interactive Systems
    June 2017
    424 pages
    ISBN:9781450349918
    DOI:10.1145/3064857
    Permission to make digital or hard copies of part or all 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 third-party components of this work must be honored. For all other uses, contact the Owner/Author.

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    Association for Computing Machinery

    New York, NY, United States

    Publication History

    Published: 10 June 2017

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    Author Tags

    1. 3D modeling
    2. computer-aided design (CAD)
    3. haptic feedback
    4. input device
    5. physical interface

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    • Work in progress

    Conference

    DIS '17
    Sponsor:
    DIS '17: Designing Interactive Systems Conference 2017
    June 10 - 14, 2017
    Edinburgh, United Kingdom

    Acceptance Rates

    DIS '17 Companion Paper Acceptance Rate 107 of 487 submissions, 22%;
    Overall Acceptance Rate 1,158 of 4,684 submissions, 25%

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    Cited By

    View all
    • (2022)Tangible Self-Report Devices: Accuracy and Resolution of Participant InputProceedings of the Sixteenth International Conference on Tangible, Embedded, and Embodied Interaction10.1145/3490149.3501309(1-14)Online publication date: 13-Feb-2022
    • (2020)I-nteract: A Cyber-Physical System for Real-Time Interaction With Physical and Virtual Objects Using Mixed Reality Technologies for Additive ManufacturingIEEE Access10.1109/ACCESS.2020.29975338(98761-98774)Online publication date: 2020
    • (2019)Augmented Reality, Cyber-Physical Systems, and Feedback Control for Additive Manufacturing: A ReviewIEEE Access10.1109/ACCESS.2019.29072877(50119-50135)Online publication date: 2019
    • (2018)Grand Challenges in Shape-Changing Interface ResearchProceedings of the 2018 CHI Conference on Human Factors in Computing Systems10.1145/3173574.3173873(1-14)Online publication date: 21-Apr-2018

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