Abstract :
The author explores the seemingly well worn subject of distance based or remote visualization. Current practices in remote visualization tend to clump into two broad categories. One approach, called render-remote, is to render an image remotely, then transmit the image to the user. Another option, render-local, transfers raw data to the user, where it is then rendered on the local workstation. With advances in networking and graphics technology, we can explore a class of approaches from a new, third category. With this third category, which we call shared or “dot com” visualization, we stand to reap the best of both worlds: minimized data transfers and workstation-accelerated rendering. The article describes Visapult, a prototype system currently under development at Lawrence Berkeley National Laboratory (LBNL) that strikes such a balance, achieving a blended, scalable visualization tool. Dot com visualization means that remote and local resources collaborate and negotiate, combining capabilities to produce a final product
Keywords :
computer networks; data visualisation; parallel programming; rendering (computer graphics); workstations; Visapult; distance based visualization; dot com visualization; graphics technology; local resources; local workstation; minimized data transfers; networking; remote visualization; render-local; render-remote; scalable visualization tool; workstation-accelerated rendering; Graphics; Hardware; Layout; Protocols; Prototypes; Rendering (computer graphics); Software performance; Software prototyping; US Department of Transportation; Visualization;
