The role of personal and shared displays in scripted collaborative learning

Over the last decades collaborative learning has gained immensely in importance and popularity due to its high potential. Unfortunately, learners rarely engage in effective learning activities unless they are provided with instructional support. In order to maximize learning outcomes it is therefore advisable to structure collaborative learning sessions. One way of doing this is using collaboration scripts, which define a sequence of activities to be carried out by the learners. The field of computer-supported collaborative learning (CSCL) produced a variety of collaboration scripts that proved to have positive effects on learning outcomes. These scripts provide detailed descriptions of successful learning scenarios and are therefore used as foundation for this thesis. In many cases computers are used to support collaborative learning. Traditional personal computers are often chosen for this purpose. However, during the last decades new technologies have emerged, which seem to be better suited for co-located collaboration than personal computers. Large interactive displays, for example, allow a number of people to work simultaneously on the same surface while being highly aware of the co-learners' actions. There are also multi-display environments that provide several workspaces, some of which may be shared, others may be personal. However, there is a lack of knowledge regarding the influence of different display types on group processes. For instance, it remains unclear in which cases shareable user interfaces should replace traditional single-user devices and when both personal and shared workspaces should be provided. This dissertation therefore explores the role of personal and shared workspaces in various situations in the area of collaborative learning. The research questions include the choice of technological devices, the seating arrangement as well as how user interfaces can be designed to guide learners. To investigate these questions a two-fold approach was chosen. First, a framework was developed, which supports the implementation of scripted collaborative learning applications. Second, different prototypes were implemented to explore the research questions. Each prototype is based on at least one collaboration script. The result is a set of studies, which contribute to answering the above-mentioned research questions. With regard to the choice of display environment the studies showed several reasons for integrating personal devices such as laptops. Pure tabletop applications with around-the-table seating arrangements whose benefits for collaboration are widely discussed in the relevant literature revealed severe drawbacks for text-based learning activities. The combination of laptops and an interactive wall display, on the other hand, turned out to be a suitable display environment for collaborative learning in several cases. In addition, the thesis presents several ways of designing the user interface in a way that guides learners through collaboration scripts

Supporting Device Discovery and Spontaneous Interaction with Spatial References

The RELATE interaction model is designed to support spontaneous interaction of mobile users with devices and services in their environment. The model is based on spatial references that capture the spatial relationship of a user’s device with other co-located devices. Spatial references are obtained by relative position sensing and integrated in the mobile user interface to spatially visualize the arrangement of discovered devices, and to provide direct access for interaction across devices. In this paper we discuss two prototype systems demonstrating the utility of the model in collaborative and mobile settings, and present a study on usability of spatial list and map representations for device selection

RelateGateways: A User Interface for Spontaneous Interaction with Pervasive Services

RelateGateways is a user interface and system that supports end-user discovery of and interaction with services dynamically encountered in their immediate environment. The interface is designed for mobile devices and indicates available services through small widgets arranged at the periphery of the screen based on a compass metaphor

Extending Mobile Devices with Spatially Arranged Gateways to Pervasive Services

Discovery and interaction with services is as much a user interface problem as a networking problem. In this paper we introduce a system in which mobile devices are seamlessly extended with Gateways to services in their environment. The gateways are realized as widgets that are arranged around the edge of the mobile device’s user interface to indicate the direction of discovered services, thus providing the user with an overview of interaction opportunities. The gateways also afford direct access to services integrate with the device’s interface, for example supporting drag-and-drop of objects to a gateway and through the gateway to the corresponding service