Conference
Collaborative Virtual Environments
About: Collaborative Virtual Environments is an academic conference. The conference publishes majorly in the area(s): Computer science & Virtual machine. Over the lifetime, 118 publications have been published by the conference receiving 4033 citations.
Topics: Computer science, Virtual machine, Collaborative virtual environment, Instructional simulation, Virtual reality
Papers
1 Dec 2000
TL;DR: The outcomes of this research can have a powerful impact on the development of next-generation human-computer interfaces and network protocols that integrate touch and force feedback technology into the internet, development of protocols and techniques for collaborative teleoperation such as hazardous material removal, space station.
Abstract: Investigating virtual environments has become an increasingly interesting research topic for engineers, computer and cognitive scientists, and psychologists. Although there have been several recent studies focused on the development of multimodal virtual environments (VEs) to study human-machine interactions, less attention has been paid to human-human and human-machine interactions in shared virtual environments (SVEs), and to our knowledge, no attention paid at all to what extent the addition of haptic communication between people would contribute to the shared experience. We have developed a multimodal shared virtual environment and performed a set of experiments with human subjects to study the role of haptic feedback in collaborative tasks and whether haptic communication through force feedback can facilitate a sense of being and collaborating with a remote partner. The study concerns a scenario where two participants at remote sites must cooperate to perform a joint task in an SVE. The goals of the study are (1) to assess the impact of force feedback on task performance, (2) to better understand the role of haptic communication in human-human interactions, (3) to study the impact of touch on the subjective sense of collaborating with a human as reported by the participants based on what they could see and feel, and (4) to investigate if gender, personality, or emotional experiences of users can affect haptic communication in SVEs. The outcomes of this research can have a powerful impact on the development of next-generation human-computer interfaces and network protocols that integrate touch and force feedback technology into the internet, development of protocols and techniques for collaborative teleoperation such as hazardous material removal, space station.
488 citations
1 Dec 2000
TL;DR: Results show that haptic force feedback significantly improvestask performance, perceived task performance, and pereceived virtual presence in the collaborative distributed environment, and suggests that haaptic force feedback increases perceived social presence.
Abstract: An experimental study of interaction in a collaborative desktop virtual environment is described. The aim of the experiment was to investigate if added haptic force feedback in such an environment affects perceived virtual presence, perceived social presence, perceived task performance, and task performance. A between-group design was employed, where seven pairs of subjects used an interface with graphic representation of the environment, audio connection, and haptic force feedback. Seven other pairs of subjects used an interface without haptic force feedback, but with identical features otherwise. The PHANToM, a one-point haptic device, was used for the haptic force feedback, and a program especially developed for the purpose provided the virtual environment. The program enables for two individuals placed in different locations to simultaneously feel and manipulate dynamic objects in a shared desktop virtual environment. Results show that haptic force feedback significantly improves task performance, perceived task performance, and pereceived virtual presence in the collaborative distributed environment. The results suggest that haptic force feedback increases perceived social presence, but the difference is not significant.
417 citations
30 Sep 2002
TL;DR: A next generation system - a 3D videoconference providing immersive tele-presence and natural representation of all participants in a shared virtual meeting space to enhance quality of human-centred communication.
Abstract: Videoconferencing is going to become attractive for geo-graphically distributed team collaboration, specifically to avoid travelling and to increase flexibility. Against this background this paper presents a next generation system - a 3D videoconference providing immersive tele-presence and natural representation of all participants in a shared virtual meeting space to enhance quality of human-centred communication. This system is based on the principle of a shared virtual table environment, which guarantees correct eye contact and gesture reproduction. The key features of our system are presented and compared to other approaches like tele-cubicles. Furthermore the current system design and details of the real-time hardware and software concept are explained.
225 citations
1 Dec 2000
TL;DR: Support for object-focused interaction provided by a desktop Collaborative Virtual Environment is explored and proposals for the design of CVEs drawn from observations are presented.
Abstract: This paper explores and evaluates the support for object-focused interaction provided by a desktop Collaborative Virtual Environment. An experimental “design” task was conducted, and video recordings of the participants' activities facilitated an observational analysis of interaction in, and through, the virtual world. Observations include: problems due to “fragmented” views of embodiments in relation to shared objects; participants compensating with spoken accounts of their actions; and difficulties in understanding others' perspectives. Implications and proposals for the design of CVEs drawn from these observations are: the use of semidistorted views to support peripheral awareness; more explicit or exaggerated representations of actions than are provided by pseudohumanoid avatars; and navigation techniques that are sensitive to the actions of others. The paper also presents some examples of the ways in which these proposals might be realized.
190 citations
1 Jul 2004
TL;DR: Using the technology described in this paper, transatlantic touch was successfully demonstrated between the Touch Lab at Massachusetts Institute of Technology, USA and Virtual Environments and Computer Graphics (VECG) lab at University College London (UCL), UK in 2002.
Abstract: The extent to which the addition of haptic communication between human users in a stared virtual environment (SVE) contributes to the shared experience of the users has not received much attention in the literature, In this paper we describe a demonstration of and an expenmental study on haptic interaction between two users over a network of significant physical distance and a number of Network hops. A number of techniques to mitigate instability of the haptic interactions induced by network latency are presented An experiment to evaluate the use of haptics in a coilborative situation mediated by a networked virtual environment is examined The experimental subjects were to cooperate in lifting a virtual box together under one of four conditions in a between-groups design. Questionnaires were used to report the ease with which they could perform the task and the subjective levels of presence ants copresence experienced This extends earlier work by the authors to consider the possibility of haptic collaboration under real network conditions with a Number of improvements. Using the technology described in-this paper, transatlantic touch was successfully demonstrated between the Touch lab at Massachusetts Instatute of Technology, USA and Virtual Environments and Computer Graphics (VECG) lab at University Collegc London (UCL), UK in 2000, It as also presented at the Internet II demonstration meeting in 2002 between University of Southern California and the Massachusetts Instrtute of Technology.
155 citations
Performance Metrics
| Year | Papers |
|---|---|
| 2018 | 4 |
| 2016 | 8 |
| 2015 | 2 |
| 2014 | 7 |
| 2004 | 10 |
| 2002 | 32 |