3 research outputs found

    Evaluating the Speed and Accuracy of Touch Input at the Edge of a Table

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    Tables, desks, and counters are often nearby, motivating their use as interactive surfaces. However, they are typically cluttered with objects. As an alternative, we explore touch input along the 'edge' of table-like surfaces. The performance of tapping, crossing, and dragging is tested along the two ridges and front face of a table edge. Results show top ridge movement time is comparable to the top face when tapping or dragging with the index finger. When crossing, both ridges are at least 11% faster than the top face. Effective width analysis is used to model performance and provide recommended target sizes. Based on observed user behaviour, we explore top and bottom ridge crossing using a "braced" thumb and provide design recommendations with example applications

    A case study of object and occlusion management on the eLabBench, a mixed physical/digital tabletop

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    We investigate how users managed physical and digital objects during the longitudinal field deployment of a tabletop in a biology laboratory. Based on the analysis of 15 hours of video logs, we detail the objects used, their presence, use and organization, in this particular setting. We propose to consider occlusion as a situation which should be prevented rather than reacted to, particularly to avoid distracting changes or animations. This implies (1) pre-positioning digital content in locations where it is not likely to be occluded and (2) acknowledging that some physical objects are deliberately put in occluding positions. Since users want to interact with such objects conveniently, occlusion management actions should not necessarily be triggered immediately. Author Keywords Tabletop; occlusion; object management; laboratory bench

    Physical Interaction Concepts for Knowledge Work Practices

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    The majority of workplaces in developed countries concern knowledge work. Accordingly, the IT industry and research made great efforts for many years to support knowledge workers -- and indeed, computer-based information workplaces have come of age. Nevertheless, knowledge work in the physical world has still quite a number of unique advantages, and the integration of physical and digital knowledge work leaves a lot to be desired. The present thesis aims at reducing these deficiencies; thereby, it leverages late technology trends, in particular interactive tabletops and resizable hand-held displays. We start from the observation that knowledge workers develop highly efficient practices, skills, and dexterity of working with physical objects in the real world, whether content-unrelated (coffee mugs, stationery etc.) or content-related (books, notepads etc.). Among the latter, paper-based objects -- the notorious analog information bearers -- represent by far the most relevant (super-) category. We discern two kinds of practices: collective practices concern the arrangement of objects with respect to other objects and the desk, while specific practices operate on individual objects and usually alter them. The former are mainly employed for an effective management of the physical desktop workspace -- e.g., everyday objects are frequently moved on tables to optimize the desk as a workplace -- or an effective organization of paper-based documents on the desktop -- e.g., stacking, fanning out, sorting etc. The latter concern the specific manipulation of physical objects related to the task at hand, i.e. knowledge work. Widespread assimilated practices concern not only writing on, annotating, or spatially arranging paper documents but also sophisticated manipulations -- such as flipping, folding, bending, etc. Compared to the wealth of such well-established practices in the real world, those for digital knowledge work are bound by the indirection imposed by mouse and keyboard input, where the mouse provided such a great advancement that researchers were seduced to calling its use "direct manipulation". In this light, the goal of this thesis can be rephrased as exploring novel interaction concepts for knowledge workers that i) exploit the flexible and direct manipulation potential of physical objects (as present in the real world) for more intuitive and expressive interaction with digital content, and ii) improve the integration of the physical and digital knowledge workplace. Thereby, two directions of research are pursued. Firstly, the thesis investigates the collective practices executed on the desks of knowledge workers, thereby discerning content-related (more precisely, paper-based documents) and content-unrelated object -- this part is coined as table-centric approaches and leverages the technology of interactive tabletops. Secondly, the thesis looks at specific practices executed on paper, obviously concentrating on knowledge related tasks due to the specific role of paper -- this part is coined as paper-centric approaches and leverages the affordances of paper-like displays, more precisely of resizable i.e. rollable and foldable displays. The table-centric approach leads to the challenge of blending interactive tabletop technology with the established use of physical desktop workspaces. We first conduct an exploratory user study to investigate behavioral and usage patterns of interaction with both physical and digital documents on tabletop surfaces while performing tasks such as grouping and browsing. Based on results of the study, we contribute two sets of interaction and visualization concepts -- coined as PaperTop and ObjecTop -- that concern specific paper based practices and collective practices, respectively. Their efficiency and effectiveness are evaluated in a series of user studies. As mentioned, the paper-centric perspective leverages late ultra-thin resizable display technology. We contribute two sets of novel interaction concepts again -- coined as FoldMe and Xpaaand -- that respond to the design space of dual-sided foldable and of rollout displays, respectively. In their design, we leverage the physical act of resizing not "just" for adjusting the screen real estate but also for interactively performing operations. Initial user studies show a great potential for interaction with digital contents, i.e. for knowledge work
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