Title :
Maximising concurrency and scalability in a consistent, causal, distributed virtual reality system, whilst minimising the effect of network delays
Author :
Roberts, David J. ; Sharkey, Paul M.
Author_Institution :
Dept. of Cybern., Reading Univ., UK
Abstract :
The development of large scale virtual reality and simulation systems have been mostly driven by the DIS and HLA standards community. A number of issues are coming to light about the applicability of these standards, in their present state, to the support of general multi-user VR systems. This paper pinpoints four issues that must be readdressed before large scale virtual reality systems become accessible to a larger commercial and public domain: a reduction in the effects of network delays; scalable causal event delivery; update control; and scalable reliable communication. Each of these issues is tackled through a common theme of combining wall clock and causal time-related entity behaviour, knowledge of network delays and prediction of entity behaviour, that together overcome many of the effects of network delays
Keywords :
computer networks; concurrency control; delays; digital simulation; multi-access systems; real-time systems; software standards; virtual reality; DIS; HLA; causal time-related entity behaviour; concurrency; distributed virtual reality system; multi-user systems; network delays; scalability; scalable causal event delivery; scalable reliable communication; simulation systems; standards; update control; wall clock; Clocks; Communication system control; Concurrent computing; Control systems; Delay effects; Large-scale systems; Scalability; Standards development; Telecommunication network reliability; Virtual reality;
Conference_Titel :
Enabling Technologies: Infrastructure for Collaborative Enterprises, 1997. Proceedings., Sixth IEEE Workshops on
Conference_Location :
Cambridge, MA
Print_ISBN :
0-8186-7967-0
DOI :
10.1109/ENABL.1997.630808
