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    Area of Science:

    • Human-Computer Interaction
    • Virtual Reality
    • Augmented Reality

    Background:

    • Head-mounted displays (HMDs) offer immersive experiences but often lack intuitive interaction methods.
    • Near-body interactions, utilizing the user's hand, present a promising avenue for novel input techniques.

    Purpose of the Study:

    • To explore the design principles of Hand Proximate User Interfaces (HPUIs) for HMDs.
    • To investigate the feasibility and effectiveness of single-handed discrete and continuous input within HPUIs.
    • To understand how hand anatomy influences interaction within HPUIs.

    Main Methods:

    • Two user studies were conducted to evaluate discrete and continuous input methods for HPUIs.
    • Interactions were analyzed based on target location (on-finger vs. off-finger) and movement axes (horizontal, vertical, diagonal).
    • Consideration was given to the natural distortions of hand anatomy during interaction.

    Main Results:

    • Discrete input on HPUIs is favored on finger targets due to tactile feedback.
    • Continuous interaction is effective both on and off fingers.
    • Continuous input control is superior along horizontal and vertical axes compared to diagonal movements.

    Conclusions:

    • HPUIs are a viable interaction paradigm for HMDs, leveraging near-body, single-handed input.
    • Design recommendations for future HPUIs emphasize on-finger targets for discrete input and axis-aligned movements for continuous input.
    • Further research can optimize HPUI design for enhanced user experience in immersive environments.