Interaction With Tilting Gestures In Ubiquitous Environments

TL;DR

This paper presents a tilting interface for controlling applications in ubiquitous environments, demonstrating its advantages over traditional input methods in speed, accuracy, and user satisfaction.

Contribution

It introduces a novel tilting interaction technique and evaluates its effectiveness compared to conventional input devices and hand gestures.

Findings

Tilt gestures outperform hand gestures in speed and accuracy.

Users reported higher satisfaction with the tilting interface.

The tilting interface is effective for quick, remote interactions in public spaces.

Abstract

In this paper, we introduce a tilting interface that controls direction based applications in ubiquitous environments. A tilt interface is useful for situations that require remote and quick interactions or that are executed in public spaces. We explored the proposed tilting interface with different application types and classified the tilting interaction techniques. Augmenting objects with sensors can potentially address the problem of the lack of intuitive and natural input devices in ubiquitous environments. We have conducted an experiment to test the usability of the proposed tilting interface to compare it with conventional input devices and hand gestures. The experiment results showed greater improvement of the tilt gestures in comparison with hand gestures in terms of speed, accuracy, and user satisfaction.