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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Avatarens många skepnader : En digital representation för bättre självkänsla / The many guises of the avatar : A digital representation for better self esteem

Eriksson, Sofia January 2014 (has links)
Avatarer är vanligt förekommande i datorspel och används för nöjes skull men avatarer används även i seriösa spel. Rapporten undersöker hur en persons självkänsla och body image kan stärkas med hjälp av en avatar och vilka egenskaper avataren behöver ha. Undersökningen genomförs som en litteraturstudie. Slutsatsen är att det troligen går att skapa en avatar för detta ändamål, men att det är många aspekter att ta hänsyn till och att det inte är helt självklart vilka val som behöver göras. Viktigt verkar dock att användaren själv får välja sin avatar, att till exempel typen av klädsel påverkar liksom avatarens längd. Det verkar också vara en avvägning om det är bäst att skapa en avatar som liknar personen själv eller att skapa en avatar som har förmågor som personen kan se upp till för att må bättre. Vilket alternativ som är bäst varierar troligen från person till person.
2

Rich interaction model for game and virtual environment design

Manninen, T. (Tony) 20 February 2004 (has links)
Abstract The focus of this thesis is on perceivable interaction forms that can be utilised in multi-player computer games and Collaborative Virtual Environments (CVEs). Interaction forms are manifestations of user-user and user-environment interaction. These forms convey the actions of the user to others, and to oneself, during synchronous communication and interaction partially resembling face-to-face encounters in the physical world. The communication, co-ordination and collaboration difficulties in current 3D CVEs have yet to be overcome. The aim of this thesis is to conceptualise and delineate the available mutually perceivable interaction forms. The research analyses entertainment industry solutions and examines their potential as providers of design implications for CVE systems in general. Furthermore, games are used as platforms in the construction phases of the research. The research answers the problems of what interaction forms exist in multi-player games and what are their main characteristics and how to apply the understanding of possible interaction forms in order to help the design of games and professionally used CVEs? The problems are approached with conceptual analytical and constructive methods. Delineation and categorisation of various interaction forms in games and CVEs is presented. The gap between theoretical models and practical design is bridged by using several empirical cases as a constructive part of the research. The significance of this research is related to the increasingly important role of CVEs in global organisations and virtual enterprises, as well as in the everyday life of people. The communicational and functional enhancements of the virtual environments and multi-player games make the interpersonal interaction more usable and applicable in computer mediated settings. The research provides a deeper understanding of the concept of interaction forms in the context of CVEs and multi-player games. The results can be used to create more supportive, appealing and communicative applications by applying interaction models and theories in the form of rich interaction design guidelines. The main contributions of this research are the conceptual models of interaction forms and corresponding rich interaction design suggestions. The results reveal important and neglected aspects of interaction forms to the world of game and virtual environment designers. Combined with the descriptions of interaction design processes the overall outcome of the work is applicable to a wide audience designing or using computer systems that support communication, co-ordination and collaboration.
3

Interactions visio-haptiques pour la coordination et la conscience situationnelle partagée en environnement virtuel collaboratif / Visio-haptic interactions for coordination and shared situation awareness in collaborative virtual environment

Girard, Adrien 12 May 2014 (has links)
La communication haptique interpersonnelle est communément utilisée pour se saluer, se féliciter, ou de manière indirecte pour manipuler des objets lourds. Pourtant, la modalité haptique est absente des systèmes de communication à distance usuels. Les progrès récents de l'informatique et des réseaux de communication ont permis l'émergence d'environnements virtuels collaboratifs offrant un retour haptique aux utilisateurs. Les environnements virtuels collaboratifs constituent une solution prometteuse pour faciliter le travail collaboratif à distance. Les contextes applicatifs sont nombreux : entrainement militaire, assemblage mécanique, manipulation moléculaire, conception assistée par ordinateur.Toutefois, les utilisateurs d'environnements virtuels collaboratifs sont confrontés à deux types de problématiques : celles liées aux environnements virtuels 3D et celles liées à la collaboration à distance. En effet, il est difficile pour un utilisateur peu expérimenté d'interagir avec un environnement virtuel 3D. Se déplacer et manipuler des objets dans ce type d'environnement nécessite une bonne représentation mentale de l'espace.De plus, la collaboration à distance limite les possibilités et la qualité de la communication. Les informations dont disposent les utilisateurs sur leurs partenaires sont donc réduites. Dans ce contexte, la coordination des actions entre les utilisateurs devient plus complexe.L'objectif de ces travaux de thèse est donc de proposer des méthodes d'interaction visio-haptique pour faciliter la coordination et augmenter l'attention mutuelle entre les utilisateurs. Via l'amélioration de la coordination et de l'attention inter-utilisateurs, une augmentation des performances et de l'efficacité du travail collaboratif est escomptée.Trois types d'interactions fondamentales sont abordées dans un contexte collaboratif : la coordination des sélections, le paramétrage des sélections et la manipulation collaborative d'objet. Pour chacune des tâches d'interactions précédemment citées, des méthodes d'interaction ainsi que des outils de coordination et de communication ont été proposé et évalué.Ces travaux de thèse présentent les points forts mais aussi les défauts des méthodes d'interaction collaboratives fortement couplées. Les résultats obtenus montrent également l'importance de la communication haptique dans la collaboration à distance. / Haptic interpersonal communication is commonly used to salute, to congratulate, or indirectly to manipulate heavy objects. However, the haptic feedback is missing from the common communication systems. Recent developments in telecommunications and computer capabilities have made possible the use of haptic feedback in collaborative virtual environments. Collaborative virtual environments are a promising solution to facilitate remote work collaboration. They have many applications like: military training, engineering design, e-learning or video games.Nevertheless, users of collaborative virtual environments have to face several issues. First, interacting with a virtual environment is not a straightforward task. Navigate and manipulate objects in a virtual environment requires a good mental representation of space. Secondly, remote collaboration limits the communication quality because even the best video conference system can't support all the richness of a face to face communication. Information available on the partners are reduced thus coordinate actions between users become a complex task.The aim of this thesis is to propose visual haptic interactions to simplify coordination and increase mutual awareness between the users. Through the improvement of coordination and mutual awareness an increase of team performance and work efficiency is expected.Three kind of fundamental 3D interactions are addressed in collaborative context: the coordination of selections, the setting of selections and the manipulation of objects. For each of these three of fundamental interactions, several methods of interaction and tools of coordination are proposed and assessed.The findings of this thesis highlight the strengths and the weaknesses of the closely coupled method of interactions. The results of the experiments also confirm the importance of haptic communication in remote collaboration.
4

AMMP-EXTN: A User Privacy and Collaboration Control Framework for a Multi-User Collaboratory Virtual Reality System

Ma, Wenjun 01 October 2007 (has links)
In this thesis, we propose a new design of privacy and session control for improving a collaborative molecular modeling CVR system AMMP-VIS [1]. The design mainly addresses the issue of competing user interests and privacy protection coordination. Based on our investigation of AMMP-VIS, we propose a four-level access control structure for collaborative sessions and dynamic action priority specification for manipulations on shared molecular models. Our design allows a single user to participate in multiple simultaneous sessions. Moreover, a messaging system with text chatting and system broadcasting functionality is included. A 2D user interface [2] for easy command invocation is developed in Python. Two other key aspects of system implementation, the collaboration Central deployment and the 2D GUI for control are also discussed. Finally, we describe our system evaluation plan which is based on an improved cognitive walkthrough and heuristic evaluation as well as statistical usage data.
5

AMMP-EXTN: A User Privacy and Collaboration Control Framework for a Multi-User Collaboratory Virtual Reality System

Ma, Wenjun 01 October 2007 (has links)
In this thesis, we propose a new design of privacy and session control for improving a collaborative molecular modeling CVR system AMMP-VIS [1]. The design mainly addresses the issue of competing user interests and privacy protection coordination. Based on our investigation of AMMP-VIS, we propose a four-level access control structure for collaborative sessions and dynamic action priority specification for manipulations on shared molecular models. Our design allows a single user to participate in multiple simultaneous sessions. Moreover, a messaging system with text chatting and system broadcasting functionality is included. A 2D user interface [2] for easy command invocation is developed in Python. Two other key aspects of system implementation, the collaboration Central deployment and the 2D GUI for control are also discussed. Finally, we describe our system evaluation plan which is based on an improved cognitive walkthrough and heuristic evaluation as well as statistical usage data.
6

Enhancing telepresence with mobile virtual proxies

Hickey, S. (Seamus) 10 May 2005 (has links)
Abstract Traditional telepresence systems are comprised of a person remotely controlling a robot in a hostile environment while receiving visual feedback from a camera mounted on the robot. While useful for a number of applications, this model is not particularly useful for everyday work applications. The size of the robot is intrusive, the robot needs to be designed for specific interactions and only one person can use the robot at any one time. This work seeks to address this problem by replacing the physical proxy with a virtual proxy. The purpose of this virtual proxy is to enhance the system by providing improved support for multiple users, interaction and navigation in the remote environment. This enhanced, or improved, version of telepresence is termed TeleReality as it combines elements of virtual reality with traditional telepresence technologies. To achieve this goal, the basic building blocks, or constructs, of traditional telepresence systems need to be changed. This thesis identifies and evaluates the base constructs needed to build any TeleReality system. These constructs include the need to support navigation of the remote environment and this is achieved by using a network of cameras and image processing software to calculate the various perspective viewpoints of the users. These constructs govern the means in which this collection of cameras are organised and connected. Each user receives a common set of video images from which they calculate their own perspective viewpoints, and consequently supporting a multi-user system. Interaction within the remote environment is promoted using ad-hoc networks and augmented reality technologies. Constructs also cover security and privacy issues that arise from using multiple cameras by adopting both an organisational and technological viewpoint. The focus is on establishing trust within the system by divesting control to the user. An example of these constructs is given by the implementation of a TeleReality model called a 'Visual Cell' system. The conclusion of this work identifies the constructs that are needed to support a telepresence system using a virtual proxy where the primary interaction framework is informational exchange, although physical interaction can also be supported depending upon the environmental support. This work also identifies the technical issues that require additional research for the implementation of a TeleReality system, from the need for improved image processing, video codec's, broadcast and ad-hoc security protocols, software architecture, registration and the availability of suitable head mounted displays.
7

Mobile Collaborative Virtual Environments: A Paradigm Shift from Desktop to Mobile Online Communities

Farooq, Umer 13 January 2003 (has links)
There are myriad examples of virtual communities and environments available for collaborative activities. However, most of these environments are confined to the desktop and thus preclude collaboration while users are on the move. Through a scenario-based design process, this article establishes the importance of mobile collaborative environments that are readily accessible for users on mobile devices. The element of mobile accessibility for collaborative environments renders them ubiquitous—they can be used anywhere and at any time. A working prototype is then presented that has been developed to supplement an existing desktop-based online virtual community. The prototype illustrates a generic, extensible and platform-independent architecture for translating a desktop collaborative environment into a mobile system. Based on the prototype, we also foresee its application for users in fieldwork settings, particularly for learning and educational activities of teachers, students, and peers through collaboration in a distributed environment. / Master of Science
8

Real-time collaborative volumetric virtual sculpting with haptic force-feedback

Prior, Anthony January 2008 (has links)
[Truncated abstract] Virtual sculpting is an interactive 3D modeling process that allows users to create and modify solid objects in a virtual world, with applications in art, rapid proto- typing and design. This thesis investigates methods for a collaborative, voxel-based virtual sculpting with haptic force-feedback. The objective is to devise such a system that operates in real-time. I make three main contributions in the fields of voxel-based virtual sculpting, haptics and collaborative virtual environments. First, I have devised a method for virtual sculpting where a voxel-based sculpture is created using a tool to build up or erode material. In existing real-time systems, due to the complexity of the algorithms that determine which voxels have been touched by the tool in a given time-step, the size or shape of the sculpting tool is limited and can often only be applied at a fixed orientation. My solution allows the tool to take the shape of any arbitrary triangle-based polyhedron that can be applied at any orientation. To determine which voxels are intersected by the tool, the tool is voxelized (converted into its discrete voxel representation) at each time-step against the voxels of the sculpture, which are then modified according to the desired operation. To give the resulting voxel-based sculpture a realistic appearance, I use the well-known Marching Cubes algorithm to form a triangular- mesh isosurface where the voxels representing sculpture material meet free-space. '...' For this I have borrowed concepts from the existing Voxmap-PointShell (VPS) model where the tool is represented by an array of points that cover its surface, each of which is tested for collisions with the sculpture. Each colliding point will form a component force, and the overall collision force is the vector sum of these components. My model is unique in that the component forces are formed in a direction tangential to the isosurface nearest the voxel of collision and can operate while the voxels of the sculpture are changing. While the VPS model is designed for force-feedback on a 6- degrees-of-freedom haptic device (delivers translational and rotational forces to the user), my model is designed to suit commodity 3-degrees-of-freedom (translational forces only) devices which are much more common. Third, I have developed a collaborative virtual sculpting paradigm to allow several users to simultaneously work on the same sculpture from different locations. This allows collaborative design without the requirement of being co-present. I will discuss methods for relaying the rapidly changing voxel and isosurface data between workstations, such that the local environment on each is synchronized in a manner that is immediate and transparent to the users. In addition, collisions between the different users' tools are felt through force-feedback. I implemented a collaborative haptic virtual sculpting simulation using the above methods in order to validate the system. The simulation was used to test the capabilities and limits of each contribution, as well as the real-time capability of the overall system. Ultimately this thesis demonstrates that it is possible to combine these technologies to form a flexible and intuitive collaborative virtual sculpting experience that operates in real-time.
9

Design, Development and Evaluation of Collaborative Team Training Method in Virtual Worlds for Time-critical Medical Procedures

January 2014 (has links)
abstract: Medical students acquire and enhance their clinical skills using various available techniques and resources. As the health care profession has move towards team-based practice, students and trainees need to practice team-based procedures that involve timely management of clinical tasks and adequate communication with other members of the team. Such team-based procedures include surgical and clinical procedures, some of which are protocol-driven. Cost and time required for individual team-based training sessions, along with other factors, contribute to making the training complex and challenging. A great deal of research has been done on medically-focused collaborative virtual reality (VR)-based training for protocol-driven procedures as a cost-effective as well as time-efficient solution. Most VR-based simulators focus on training of individual personnel. The ones which focus on providing team training provide an interactive simulation for only a few scenarios in a collaborative virtual environment (CVE). These simulators are suited for didactic training for cognitive skills development. The training sessions in the simulators require the physical presence of mentors. The problem with this kind of system is that the mentor must be present at the training location (either physically or virtually) to evaluate the performance of the team (or an individual). Another issue is that there is no efficient methodology that exists to provide feedback to the trainees during the training session itself (formative feedback). Furthermore, they lack the ability to provide training in acquisition or improvement of psychomotor skills for the tasks that require force or touch feedback such as cardiopulmonary resuscitation (CPR). To find a potential solution to overcome some of these concerns, a novel training system was designed and developed that utilizes the integration of sensors into a CVE for time-critical medical procedures. The system allows the participants to simultaneously access the CVE and receive training from geographically diverse locations. The system is also able to provide real-time feedback and is also able to store important data during each training/testing session. Finally, this study also presents a generalizable collaborative team-training system that can be used across various team-based procedures in medical as well as non-medical domains. / Dissertation/Thesis / Ph.D. Biomedical Informatics 2014
10

Architecture événementielle pour les environnements virtuels collaboratifs sur le web : application à la manipulation et à la visualisation d'objets en 3D / Event-based architecture for web-based virtual collaborative environments : application to manipulation and visualisation of 3D objects

Desprat, Caroline 01 December 2017 (has links)
L’évolution technologique du web durant ces dernières années a favorisé l’arrivée d’environnements virtuels collaboratifs pour la modélisation 3D à grande échelle. Alors que la collaboration réunit dans un même espace partagé des utilisateurs distants géographiquement pour un objectif de collaboration commun, les ressources matérielles qu'ils apportent (calcul, stockage, 3D ...) avec leurs connaissances sont encore trop rarement utilisées et cela constitue un défi. Il s'agit en effet de proposer un système simple, performant et transparent pour les utilisateurs afin de permettre une collaboration efficace à la fois sur le volet computationnel mais aussi, bien entendu, sur l'aspect métier lié à la modélisation 3D sur le web. Pour rendre efficace le passage à l’échelle, de nombreux systèmes utilisent une architecture réseau dite "hybride", combinant client serveur et pair-à-pair. La réplication optimiste s'adapte bien aux propriétés de ces environnements répartis : la dynamicité des utilisateurs et leur nombre, le type de donnée traitées (3D) et leur taille. Cette thèse présente un modèle pour les systèmes d’édition collaborative en 3D sur le web. L'architecture cliente (3DEvent) permet de déporter les aspects métiers de la 3D au plus près de l’utilisateur sous la forme d’évènements. Cette architecture orientée événements repose sur le constat d’un fort besoin de traçabilité et d’historique sur les données 3D lors de l’assemblage d’un modèle. Cet aspect est porté intrinsèquement par le patron de conception event-sourcing. Ce modèle est complété par la définition d’un intergiciel en pair-à-pair. Sur ce dernier point, nous proposons d'utiliser la technologie WebRTC qui présente une API familière aux développeurs de services en infonuagique. Une évaluation portant sur deux études utilisateur concernant l’acceptance du modèle proposé a été menée dans le cadre de tâches d’assemblage de modèles 3D sur plusieurs groupes d’utilisateurs. / Web technologies evolutions during last decades fostered the development of collaborative virtual environments for 3D design at large scale. Despite the fact that collaborative environments gather in a same shared space geographically distant users in a common objective, the hardware ressources of their clients (calcul, storage, graphics ...) are often underused because of the challenge it represents. It is indeed a matter of offering an easy-to-use, efficient and transparent collaborative system to the user supporting both computationnal and 3D design visualisation and business logic needs in heterogeneous web environments. To scale well, numerous systems use a network architecture called "hybrid", combining both client-server and peer-to-peer. Optimistic replication is well adapted to distributed application such as 3D collaborative envionments : the dynamicity of users and their numbers, the 3D data type used and the large amount and size of it.This document presents a model for 3D web-based collaborative editing systems. This model integrates 3DEvent, an client-based architecture allowing us to bring 3D business logic closer to the user using events. Indeed, the need of traceability and history awareness is required during 3D design especially when several experts are involved during the process. This aspect is intrinsec to event-sourcing design pattern. This architecture is completed by a peer-to-peer middleware responsible for the synchronisation and the consistency of the system. To implement it, we propose to use the recent web standard API called WebRTC, close to cloud development services know by developers. To evaluate the model, two user studies were conducted on several group of users concerning its responsiveness and the acceptance by users in the frame of cooperative assembly tasks of 3D models.

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