Synchronization models for multimedia presentation with user participation

This paper addresses the key issue of providingflexible multimedia presentation with user participation and suggests synchronization models that can specify the user participation during the presentation. We study models like the Petrinet-based hypertext model and the object composition Petri nets (OCPN). We suggest adynamic timed Petri nets structure that can model pre-emptions and modifications to the temporal characteristics of the net. This structure can be adopted by the OCPN to facilitate modeling of multimedia synchronization characteristics with dynamic user participation. We show that the suggested enhancements for the dynamic timed Petri nets satisfy all the properties of the Petri net theory. We use the suggested enhancements to model typical scenarios in a multimedia presentation with user inputs.

[1]  David Hutchison,et al.  Orchestration Services for Distributed Multimedia Synchronisation , 1992, HPN.

[2]  P. Venkat Rangan,et al.  Adaptive feedback techniques for synchronized multimedia retrieval over integrated networks , 1993, TNET.

[3]  Ralf Steinmetz,et al.  Synchronization Properties in Multimedia Systems , 1990, IEEE J. Sel. Areas Commun..

[4]  Simon J. Gibbs Composite multimedia and active objects , 1991, OOPSLA 1991.

[5]  Nick Roussopoulos,et al.  Timing Requirements for Time-Driven Systems Using Augmented Petri Nets , 1983, IEEE Transactions on Software Engineering.

[6]  Arif Ghafoor,et al.  Synchronization and Storage Models for Multimedia Objects , 1990, IEEE J. Sel. Areas Commun..

[7]  Wlodzimierz M. Zuberek,et al.  M–TIMED PETRI NETS, PRIORITIES, PREEMPTIONS, AND PERFORMANCE EVALUATION OF SYSTEMS , 2007 .

[8]  Dick C. A. Bulterman Synchronization of Multi-Sourced Multimedia Data for Heterogeneous Target Systems , 1992, NOSSDAV.

[9]  P. David Stotts,et al.  Petri-net-based hypertext: document structure with browsing semantics , 1989, TOIS.

[10]  James Lyle Peterson,et al.  Petri net theory and the modeling of systems , 1981 .

[11]  David Hutchison,et al.  Towards an Integrated Quality of Service Architecture (QOS-A) for Distributed Multimedia Communications , 1992, HPN.

[12]  P. David Stotts,et al.  Temporal hyperprogramming , 1990, J. Vis. Lang. Comput..

[13]  Jean-Bernard Stefani,et al.  Computational model for distributed multimedia applications based on a synchronous programming language , 1992, Comput. Commun..

[14]  Thomas Dunham Conant Little Synchronization for distributed multimedia database systems , 1992 .

[15]  J. Christian Fritzsche,et al.  An Abstract View on Multimedia Devices in Distributed Systems , 1992, NETWORKS.