Shun-Yun Hu scite author profile

Shun-Yun Hu

5Publications

203Citation Statements Received

31Citation Statements Given

How they've been cited

382

203

How they cite others

Affiliations

Institute of Information Science, Academia Sinica, National Central University, Institute of Physics, Academia Sinica

Publications

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FLoD: A Framework for Peer-to-Peer 3D Streaming

Huang

Chang

et al. 2008

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Abstract-Interactive 3D content on Internet has yet become popular due to its typically large volume and the limited network bandwidth. Progressive content transmission, or 3D streaming, thus is necessary to enable real-time content interactions. However, the heavy data and processing requirements of 3D streaming challenge the scalability of client-server delivery methods. We propose the use of peer-to-peer (P2P) networks for 3D streaming, and argue that due to the non-linear access patterns of 3D content, P2P 3D streaming is a new class of applications apart from existing media streaming and requires new investigations.We also present FLoD, the first P2P 3D streaming framework that allows clients of 3D virtual globe or virtual environment (VE) applications to obtain relevant data from other clients while minimizing server resource usage. To demonstrate how FLoD applies to real-world scenarios, we build a prototype system that adapts JPEG 2000-based 3D mesh streaming for P2P delivery. Experiments show that server-side bandwidth usage can thus be reduced, while simulations indicate that P2P 3D streaming is fundamentally more scalable than client-server approaches.

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VON: a scalable peer-to-peer network for virtual environments

Chen

2006

IEEE Network

214

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Voronoi State Management for Peer-to-Peer Massively Multiplayer Online Games

Chang

Jiang

2008

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Scalable AOI-Cast for Peer-to-Peer Networked Virtual Environments

Jiang

Huang

2008

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VSO: Self-Organizing Spatial Publish Subscribe

Chen

2011

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Shun-Yun Hu

FLoD: A Framework for Peer-to-Peer 3D Streaming

VON: a scalable peer-to-peer network for virtual environments

Voronoi State Management for Peer-to-Peer Massively Multiplayer Online Games

Scalable AOI-Cast for Peer-to-Peer Networked Virtual Environments

VSO: Self-Organizing Spatial Publish Subscribe

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