4D TeleCast: Towards Large Scale Multi-site and Multi-view Dissemination of 3DTI Contents

Arefin, Md Ahsan; Huang, Zixia; Nahrstedt, Klara; Agarwal, Pooja

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https://hdl.handle.net/2142/30825 Copy

Description

Title

4D TeleCast: Towards Large Scale Multi-site and Multi-view Dissemination of 3DTI Contents

Author(s)

• Arefin, Md Ahsan
• Huang, Zixia
• Nahrstedt, Klara
• Agarwal, Pooja

Issue Date

2012

Keyword(s)

• 4D Distribution
• Content Distribution
• View Change
• CDN-P2P
• View Synchronization
• Priority-based Bandwidth Allocation

Abstract

3D Tele-immersive systems create real-time multi-stream and multi-view 3D collaborative contents from multiple sites to allow interactive shared activities in virtual environments. Applications of 3DTI include online sports, tele-health, remote learning and collaborative arts. In addition to interactive participants in 3DTI environments, we envision a large number of passive non-interactive viewers that (a) watch the interactive activities in 3DTI shared environments, and (b) select views of the activities at run time. To achieve this vision, we present 4D TeleCast, a novel multi-stream 3D content distribution framework for non-interactive viewers providing the functionality of multi-view selection. It addresses the following challenges: (1) supporting a large number of concurrent multi-stream viewers as well as multi-views, (2) preserving the unique nature of 3DTI multi-stream and multi-view dependencies at the viewers, and (3) allowing dynamic viewer behavior such as view changes and large-scale simultaneous viewer arrivals or departures. We divide the problem space into two: (1) multi-stream overlay construction problem that aims to minimize the cost of distribution of multi-stream contents, and maximize the number of concurrent viewers with sufficient viewer dynamism in terms of their resources and availabilities, and (2) effective resource utilization problem that aims to preserve the multi-stream dependencies in a view considering the heterogeneous resource constraints at the viewers. We evaluate 4D TeleCast using extensive simulations with 3DTI activity data and PlanetLab traces.

Publisher

IEEE

Type of Resource

text

Language

en

Permalink

http://hdl.handle.net/2142/30825

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