Pathfinding in VRML

Virtual Reality Modelling Language (VRML) is a scene description language which describes three dimensional (3D) space to a computer. Thus the three axis of space that is inherent in our dimension X Y and Z is represented inside a computer. To many people VRML represents a new beginning for the World Wide Web (WWW) because it behaves more like the real world. VRML is experimental, interactive, continuous and of course, three dimensional. Algorithms in computing have been designed for 2D problem solving and this does not necessarily translate to problem solving on a 3D level. The aim of this project was to experiment with one of these algorithms within the domain of 3D space (VRML). This project chose to use an algorithm based on solving shortest path problems and then translate this algorithm for it to work in a 3D environment. Java, a programming language, was used to find the shortest path. The shortest path was then shown via the use of an animated camera going through the 3D environment in effect delivering a pathfinding system. VRML was used as the basis to create the 3D environment, thus the project creates a pathfinding system that can be used as a navigational tool within a VRML world

The design of 3D cyberspace as user interface: Advantages and limitations

Virtual reality propagandists, technologists and the Internet community have long debated the issue of the usability of online three-dimensional (3D) environments. A lot of work was published about the benefits of 3D spaces for human-computer interaction and information visualisation due to their realism (Anders, Kalawsky, Crossley, Davies, McGrath, Rejman-Greene, 1998, Hamit, 1993, Heim, 1992, Aukstakalnis, Blatner, Roth, 1992). This topic also receives continuous industry support including standardisation of Virtual Reality Modeling Language ( VRML, VRML Consortium, 1997) and the more recent Macromedia & Intel alliance to bring web 3D to the mainstream (200 1, Intel Corporation). The actual implementation of this technology is, however, still challenging (McCarthy & Descartes, 1998) and minimal because 3D is too new and waiting for good design to be discovered (Nielsen, 1998). The practical aim of this project is to fulfil the niche by creating a functional 3D interface for the access of two-dimensional (2D) information, such as text, using VRML. The theoretical aim is to contribute to further research into 3D usability by describing and analysing the design process in terms of possibilities, challenges and limitations

Integrating realistic human group behaviors into a networked 3D virtual environment

Distributed Interactive Simulation DIS-Java-VRML Working Group. Includes supplementary material provided from the contents of a CD-Rom issued containing the work of all three Working Group members and all supplementary material, in compressed format.Virtual humans operating inside large-scale virtual environments (VE) are typically controlled as single entities. Coordination of group activity and movement is usually the responsibility of their real world human controllers. Georeferencing coordinate systems, single-precision versus double-precision number representation and network delay requirements make group operations difficult. Mounting multiple humans inside shared or single vehicles, (i.e. air-assault operations, mechanized infantry operations, or small boat/riverine operations) with high fidelity is often impossible. The approach taken in this thesis is to reengineer the DIS-Java-VRML Capture the Flag game geolocated at Fort Irwin, California to allow the inclusion of human entities. Human operators are given the capability of aggregating or mounting nonhuman entities for coordinated actions. Additionally, rapid content creation of human entities is addressed through the development of a native tag set for the Humanoid Animation (H-Anim) 1.1 Specification in Extensible 3D (X3D). Conventions are demonstrated for integrating the DIS-Java-VRML and H-Anim draft standards using either VRML97 or X3D encodings. The result of this work is an interface to aggregate and control articulated humans using an existing model with a standardized motion library in a networked virtual environment. Virtual human avatars can be mounted and unmounted from aggregation entities. Simple demonstration examples show coordinated tactical maneuver among multiple humans with and without vehicles. Live 3D visualization of animated humanoids on realistic terrain is then portrayed inside freely available web browsers.Approved for public release; distribution is unlimited

Documenting and validating Virtual Archaeology

The use of Virtual Archaeology is expanding rapidly, not only in the museum and archaeology professions, but also in the broadcast media, tourism and heritage industries. Many concerns have been expressed about the lack of transparency and difficulty in validating the models and presentations used in these contexts. A case study is used to illustrate the role of metadata in addressing these problems. The paper argues that appropriate metadata documentation of projects may extend the critical apparatus that we take for granted in scientific papers into the world of distributed Virtual Archaeology. Three recently introduced XML languages for multimedia (SMIL), vector graphics (SVG) and virtual reality (X3D) applications are examined with particular reference to their metadata hosting capabilities. Finally, an outline proposal for a Virtual Archaeology Metadata Profile and Schema is presented, based on refinements of the Dublin Core and other metadata schemas

Design and Display of Enhancing Information in Desktop Information-Rich Virtual Environments: Challenges and Techniques

Information-Rich Virtual Environments (IRVEs) have been described as environments in which perceptual information is enhanced with abstract (or symbolic) information such as text, numbers, images, audio, video, or hyperlinked resources. Desktop VE applications present the same information design and layout challenges as immersive VEs, but in addition, they may also be integrated with external windows or frames commonly used in desktop interfaces. This paper enumerates design approaches for the display of enhancing information both internal and external to the virtual world?s render volume. Using standard web-based software frameworks, we explore a number of implicit and explicit spatial layout methods for the display and linking of abstract information, especially text. Within the virtual environment view, we demonstrate both Heads-Up-Displays and encapsulated scenegraph behaviors we call Semantic Objects. For desktop displays, which support information display venues external to the scene, we demonstrate the linking and integration of the scene with web browsers and the Snap-Together visualization a system. Finally, we describe the application of these techniques in the PathSim Visualizer, an IRVE interface for the biomedical domain. These design techniques are relevant for instructional and informative interfaces for a wide variety of desktop VE applications

A simulation environment for multi-user telerobotics

Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1998.Includes bibliographical references (leaves 59-62).by Tokgöz Özgü.S.M

An Internet based multimedia infrastructure for collaborative engineering

Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering, 2000.Includes bibliographical references (leaves 129-131).The evolution of computer based collaborative environments has resulted in easier and more economical design efforts among geographically distributed design teams. Most of today's internet based collaborative applications allow people that are geographically dispersed to meet with each other using their computers and work together without actually having to travel. A prototype system was developed by taking two tactical planning applications and incorporating them into the collaboration model employed by CAIRO (Collaborative Agent Interaction control and synchROnization). This system was developed based on the collaboration infrastructure that was developed as a part of the Da-Vinci Society Initiative at MIT. The main focus of this research lies in the formalization of a multi-media based architecture that supplements the existing collaboration infrastructure. This architecture lays the groundwork for development of a robust collaboration system that incorporates audio/video conferencing, speech recognition and synthesis and three-dimensional virtual meeting environments in order to facilitate efficient collaboration.by Padmanabha N. Vedam.S.M

The Utilization of Virtual Reality for Commercial Purpose: Taking Television Broadcast Advertising as an Example

In general, current research suggests that virtual environments, compared to classical advertising media, provide users with a higher level of presence, more perceptual and psychological immersion. This paper reviews how virtual reality enables private companies and public organizations to support business advertising by creating new business opportunities and to promote more proactive service management by using television broadcast advertising as a medium. This, in turn, will have the effect of making him I her less aware of embedded persuasive message, which will thus have a moderating effect on various advertising-related outcomes, less advertising recall, but more positive brand attitude, and favorable purchase intention This paper that due to their specific character, integration, interactivity, hypermedia, immersive and narrative virtual environment could be a more effective persuasion charmel than classical advertising media. This is a momentum to see how far virtual reality is able to rival video in television advertising. Virtual reality has grown very well nowadays but the usage in society and in the business community is minimal. Therefore, by introducing virtual reality in new environment; advertising will create a new era, which provides technical foundation for the computer software and hardware that drives to the advertising environment. This project will be of interest to practitioners involved in virtual environment development in the television broadcast advertising. The scope of studies for this project covered the advertising, education, entertainment and human senses. All scopes are inter-related in this research. Rapid Application Development (RAD) has been chosen as a methodology of the project. This will be a useful finding for product in virtual reality advertising.