Abstract
AbstractCo-located collaboration on large vertical screens has become technically feasible, but users are faced with increased effort, or have to wear intrusive personal identifiers. Previous research on co-located collaboration has assumed that all users perform exactly the same task (e.g., moving and resizing photos), or that they negotiate individual actions in turns. However, there is limited user interface software that supports simultaneous performance of individual actions during shared tasks (Fig. 1a). As a remedy, we have introduced multi-touch chords (Fig. 1b) and personal action windows (Fig. 1c) for co-located collaboration on a large multi-touch vertical display. Instead of selecting an item in a fixed menu by reaching for it, users work simultaneously on shared tasks by means of personal action windows, which are triggered by multi-touch chords performed anywhere on the display. In order to evaluate the proposed technique with users, we introduced an experimental task, which stands for the group dynamics that emerge during shared tasks on a large display. A grounded theory analysis of users’ behaviour provided insights into established co-located collaboration topics, such as conflict resolution strategies and space negotiation. The main contribution of this work is the design and implementation of a novel seamless identification and interaction technique that supports diverse multi-touch interactions by multiple users: multi-touch chord interaction along with personal action windows.
Highlights
In recent years, there have been great advances in the accuracy and the available number of touches supported on large-scale multi-touch (MT) hardware technology (e.g., FTIR, laser-plane, DI, other combined installations)
The main contribution of this research is a) the design and b) the development of multi-touch chords interface along with personal action windows in a Chords and personal action windows In the following subsections, we firstly describe the related work concerning the chord interaction technique and the personal windows interface and we demonstrate the need for a toolkit that can handle these multi-user multi-touch techniques and describe what experimental task is needed in order to evaluate this multi-user multi-touch interaction techniques
Chord interaction techniques have been used in previous studies
Summary
There have been great advances in the accuracy and the available number of touches supported on large-scale multi-touch (MT) hardware technology (e.g., FTIR, laser-plane, DI, other combined installations). This allowed multiple users to interact with a relatively low-cost screen simultaneously, there is still limited user interface software technology support for group collaboration. Many MT systems (e.g., moving and resizing photos) assume that co-located users perform the exact same type of interaction on the screen, but there are applications (such as drawing on a shared canvas with different pens or working on maps) that require concurrent.
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