Undercurrents – A Computer-Based Gameplay Tool to Support Tabletop Roleplaying

This paper introduces Undercurrents, a computer-based gameplay tool for providing additional communication and media streams during tabletop roleplaying sessions. Based upon a client-server architecture, the system is intended to unobtrusively support secret communication, timing of audio and visual presentations to game events, and real-time documentation of the game session. Potential end users have been involved in the development and the paper provides details on the full design process

Rethinking 'multi-user': an in-the-wild study of how groups approach a walk-up-and-use tabletop interface

Multi-touch tabletops have been much heralded as an innovative technology that can facilitate new ways of group working. However, there is little evidence of these materialising outside of research lab settings. We present the findings of a 5-week in-the-wild study examining how a shared planning application – designed to run on a walk-up- and-use tabletop – was used when placed in a tourist information centre. We describe how groups approached, congregated and interacted with it and the social interactions that took place – noting how they were quite different from research findings describing the ways groups work around a tabletop in lab settings. We discuss the implications of such situated group work for designing collaborative tabletop applications for use in public settings

Exploring The Impact Of Configuration And Mode Of Input On Group Dynamics In Computing

Objectives: Large displays and new technologies for interacting with computers offer a rich area for the development of new tools to facilitate collaborative concept mapping activities. In this thesis, WiiConcept is described as a tool designed to allow the use of multiple WiiRemotes for the collaborative creation of concept maps, with and without gestures. Subsequent investigation of participants' use of the system considers the effect of single and multiple input streams when using the software with and without gestures and the impact upon group concept mapping process outcomes and interactions when using a large display. Methods: Data is presented from an exploratory study of twenty two students who have used the tool. Half of the pairs used two WiiRemotes, while the remainder used one WiiRemote. All pairs created one map without gestures and one map with gestures. Data about their maps, interactions and responses to the tool were collected. Results: Analysis of coded transcripts indicates that one-controller afforded higher levels of interaction, with the use of gestures also increasing the number of interactions seen. Additionally, the result indicated that there were significantly more interactions of the 'shows solidarity', 'gives orientation', and 'gives opinion' categories (defined by the Bales' interaction processes assessment), when using one-controller as opposed to two. Furthermore, there were more interactions for the 'shows solidarity', 'tension release', 'gives orientation' and 'shows tension' categories when using gestures as opposed to the non-use of gestures. Additionally, there were no significant differences in the perceived dominance of individuals, as measured on the social dominance scales, for the amount of interaction displayed, however, there was a significant main effect of group conversational control score on the 'gives orientation' construct, with a higher number of interactions for low, mixed and high scores of this type when dyads had one-controller as opposed to two-controllers. There was also a significant interaction effect of group conversational control score on the 'shows solidarity' construct with a higher number of interactions for all scores of this type when dyads had one-controller as opposed to two-controllers. The results also indicate that for the WiiConcept there was no difference between number of controllers in the detail in the maps, and that all users found the tool to be useful for the collaborative creation of concept maps. At the same time, engaging in disagreement was related to the amount of nodes created with disagreement leading to more nodes being created. Conclusions: Use of one-controller afforded higher levels of interaction, with gestures also increasing the number of interactions seen. If a particular type of interaction is associated with more nodes, there might also be some argument for only using one-controller with gestures enabled to promote cognitive conflict within groups. All participants responded that the tool was relatively easy to use and engaging, which suggests that this tool could be integrated into collaborative concept mapping activities, allowing for greater collaborative knowledge building and sharing of knowledge, due to the increased levels of interaction for one-controller. As research has shown concept mapping can be useful for promoting the understanding of complex ideas, therefore the adoption of the WiiConcept tool as part of a small group learning activity may lead to deeper levels of understanding. Additionally, the use of gestures suggests that this mode of input does not affect the amount of words, nodes, and edges created in a concept map. Further research, over a longer period of time, may see improvement with this form of interaction, with increased mastery of gestural movement leading to greater detail of conceptual mapping

Analysing, visualising and supporting collaborative learning using interactive tabletops

The key contribution of this thesis is a novel approach to design, implement and evaluate the conceptual and technological infrastructure that captures student’s activity at interactive tabletops and analyses these data through Interaction Data Analytics techniques to provide support to teachers by enhancing their awareness of student’s collaboration. To achieve the above, this thesis presents a series of carefully designed user studies to understand how to capture, analyse and distil indicators of collaborative learning. We perform this in three steps: the exploration of the feasibility of the approach, the construction of a novel solution and the execution of the conceptual proposal, both under controlled conditions and in the wild. A total of eight datasets were analysed for the studies that are described in this thesis. This work pioneered in a number of areas including the application of data mining techniques to study collaboration at the tabletop, a plug-in solution to add user-identification to a regular tabletop using a depth sensor and the first multi-tabletop classroom used to run authentic collaborative activities associated with the curricula. In summary, while the mechanisms, interfaces and studies presented in this thesis were mostly explored in the context of interactive tabletops, the findings are likely to be relevant to other forms of groupware and learning scenarios that can be implemented in real classrooms. Through the mechanisms, the studies conducted and our conceptual framework this thesis provides an important research foundation for the ways in which interactive tabletops, along with data mining and visualisation techniques, can be used to provide support to improve teacher’s understanding about student’s collaboration and learning in small groups

Handbook of Emergency Management For State-Level Transportation Agencies, MTI Report 09-10

The Department of Homeland Security has mandated specific systems and techniques for the management of emergencies in the United States, including the Incident Command System, the National Incident Management System, Emergency Operations Plans, Emergency Operations Centers, Continuity of Government Plans and Continuity of Operations Plans. These plans and systems may be applied to the state-level transportation agency�s disaster response systems to enhance efficiency and effectiveness. Specific guidance and management techniques are provided to aid emergency planning staff to create DHS-compliant systems

Collocated Collaboration Analytics: Principles and Dilemmas for Mining Multimodal Interaction Data

© 2019, Copyright © 2017 Taylor & Francis Group, LLC. Learning to collaborate effectively requires practice, awareness of group dynamics, and reflection; often it benefits from coaching by an expert facilitator. However, in physical spaces it is not always easy to provide teams with evidence to support collaboration. Emerging technology provides a promising opportunity to make collocated collaboration visible by harnessing data about interactions and then mining and visualizing it. These collocated collaboration analytics can help researchers, designers, and users to understand the complexity of collaboration and to find ways they can support collaboration. This article introduces and motivates a set of principles for mining collocated collaboration data and draws attention to trade-offs that may need to be negotiated en route. We integrate Data Science principles and techniques with the advances in interactive surface devices and sensing technologies. We draw on a 7-year research program that has involved the analysis of six group situations in collocated settings with more than 500 users and a variety of surface technologies, tasks, grouping structures, and domains. The contribution of the article includes the key insights and themes that we have identified and summarized in a set of principles and dilemmas that can inform design of future collocated collaboration analytics innovations

Interactive tabletops in education

Interactive tabletops are gaining increased attention from CSCL researchers. This paper analyses the relation between this technology and teaching and learning processes. At a global level, one could argue that tabletops convey a socio-constructivist flavor: they support small teams that solve problems by exploring multiple solutions. The development of tabletop applications also witnesses the growing importance of face-to-face collaboration in CSCL and acknowledges the physicality of learning. However, this global analysis is insufficient. To analyze the educational potential of tabletops in education, we present 33 points that should be taken into consideration. These points are structured on four levels: individual user-system interaction, teamwork, classroom orchestration, and socio-cultural contexts. God lies in the detail

Designing for Shareable Interfaces in the Wild

Despite excitement about the potential of interactive tabletops to support collaborative work, there have been few empirical demonstrations of their effectiveness (Marshall et al., 2011). In particular, while lab-based studies have explored the effects of individual design features, there has been a dearth of studies evaluating the success of systems in the wild. For this technology to be of value, designers and systems builders require a better understanding of how to develop and evaluate tabletop applications to be deployed in real world settings. This dissertation reports on two systems designed through a process that incorporated ethnography-style observations, iterative design and in the wild evaluation. The first study focused on collaborative learning in a medical setting. To address the fact that visitors to a hospital emergency ward were leaving with an incomplete understanding of their diagnosis and treatment, a system was prototyped in a working Emergency Room (ER) with doctors and patients. The system was found to be helpful but adoption issues hampered its impact. The second study focused on a planning application for visitors to a tourist information centre. Issues and opportunities for a successful, contextually-fitted system were addressed and it was found to be effective in supporting group planning activities by novice users, in particular, facilitating users’ first experiences, providing effective signage and offering assistance to guide the user through the application. This dissertation contributes to understanding of multi-user systems through literature review of tabletop systems, collaborative tasks, design frameworks and evaluation of prototypes. Some support was found for the claim that tabletops are a useful technology for collaboration, and several issues were discussed. Contributions to understanding in this field are delivered through design guidelines, heuristics, frameworks, and recommendations, in addition to the two case studies to help guide future tabletop system creators

Supporting collaborative work using interactive tabletop

PhD ThesisCollaborative working is a key of success for organisations. People work together around tables at work, home, school, and coffee shops. With the explosion of the internet and computer systems, there are a variety of tools to support collaboration in groups, such as groupware, and tools that support online meetings. However, in the case of co-located meetings and face-to-face situations, facial expressions, body language, and the verbal communications have significant influence on the group decision making process. Often people have a natural preference for traditional pen-and-paper-based decision support solutions in such situations. Thus, it is a challenge to implement tools that rely advanced technological interfaces, such as interactive multi-touch tabletops, to support collaborative work. This thesis proposes a novel tabletop application to support group work and investigates the effectiveness and usability of the proposed system. The requirements for the developed system are based on a review of previous literature and also on requirements elicited from potential users. The innovative aspect of our system is that it allows the use of personal devices that allow some level of privacy for the participants in the group work. We expect that the personal devices may contribute to the effectiveness of the use of tabletops to support collaborative work. We chose for the purpose of evaluation experiment the collaborative development of mind maps by groups, which has been investigated earlier as a representative form of collaborative work. Two controlled laboratory experiments were designed to examine the usability features and associated emotional attitudes for the tabletop mind map application in comparison with the conventional pen-and-paper approach in the context of collaborative work. The evaluation clearly indicates that the combination of the tabletop and personal devices support and encourage multiple people working collaboratively. The comparison of the associated emotional attitudes indicates that the interactive tabletop facilitates the active involvement of participants in the group decision making significantly more than the use of the pen-and-paper conditions. The work reported here contributes significantly to our understanding of the usability and effectiveness of interactive tabletop applications in the context of supporting of collaborative work.The Royal Thai governmen

Collaborative behavior, performance and engagement with visual analytics tasks using mobile devices

Interactive visualizations are external tools that can support users’ exploratory activities. Collaboration can bring benefits to the exploration of visual representations or visu‐ alizations. This research investigates the use of co‐located collaborative visualizations in mobile devices, how users working with two different modes of interaction and view (Shared or Non‐Shared) and how being placed at various position arrangements (Corner‐to‐Corner, Face‐to‐Face, and Side‐by‐Side) affect their knowledge acquisition, engagement level, and learning efficiency. A user study is conducted with 60 partici‐ pants divided into 6 groups (2 modes×3 positions) using a tool that we developed to support the exploration of 3D visual structures in a collaborative manner. Our results show that the shared control and view version in the Side‐by‐Side position is the most favorable and can improve task efficiency. In this paper, we present the results and a set of recommendations that are derived from them