Title :
VON: a scalable peer-to-peer network for virtual environments
Author :
Hu, Shun-Yun ; Chen, HuJui-Fa ; Chen, Tsu-Han
Author_Institution :
Inst. of Phys., Acad. Sinica, Taipei
Abstract :
The scalability of large-scale networked virtual environments (NVEs) such as today´s massively multiplayer online games (MMOGs) faces inherent limits imposed by client-server architectures. We identify an emerging research direction that applies peer-to-peer (P2P) networks in order to realize more scalable and affordable NVEs. The central issue for P2P-based NVE (P2P-NVE) systems is to correctly and efficiently maintain the topology of all participating peers by solving the neighbor discovery problem. We also propose the Voronoi-based overlay network (VON), a simple and efficient design that maintains the P2P topology in a fully-distributed, low-latency, and message-efficient manner. Simulation results show that by bounding the per-node resource consumption, VON can be fundamentally more scalable than existing methods while achieving high topology consistency and reliability
Keywords :
client-server systems; computer games; peer-to-peer computing; telecommunication network topology; P2P topology; P2P-based NVE systems; VON; Voronoi-based overlay network; client-server architectures; large-scale networked virtual environment scalability; massively multiplayer online games; neighbor discovery problem; per-node resource consumption; scalable peer-to-peer network; Availability; Bandwidth; Delay; Information security; Maintenance; Network topology; Peer to peer computing; Physics; Scalability; Virtual environment;
Journal_Title :
Network, IEEE
DOI :
10.1109/MNET.2006.1668400
