1 / 10

P2P Layered Streaming for Heterogeneous Networks in PPSP K. Wu, Z. Lei, D. Chiu James Zhibin Lei

P2P Layered Streaming for Heterogeneous Networks in PPSP K. Wu, Z. Lei, D. Chiu James Zhibin Lei 17/03/2010. Introduction. Single layer video streaming. Scenario PCs, set-top boxes and mobile devices may all need to access and provide service for the same content. Problems

kreeli
Download Presentation

P2P Layered Streaming for Heterogeneous Networks in PPSP K. Wu, Z. Lei, D. Chiu James Zhibin Lei

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. P2P Layered Streaming for Heterogeneous Networks in PPSP K. Wu, Z. Lei, D. Chiu James Zhibin Lei 17/03/2010

  2. Introduction

  3. Single layer video streaming • Scenario • PCs, set-top boxes and mobile devices may all need to access and provide service for the same content. • Problems • Use multiple versions of video content (each encoded at different resolution or visual quality). For example, lower resolution video can be sent to, mobile devices while higher resolution or high quality video is sent to PC or STB players • Peers in different versions will not help each other. • The overall video quality received will not be optimal.

  4. Multiple layer video streaming • Layered Encoding • A video sequence is divided into multiple non-overlapped bit streams, or layers. • Base Layer • Contains the basic data representing the most important features of the video. • Enhancement Layers • Contain data that progressively refine the reconstructed video quality. • Layered Dependency • The upper layers depend on the lower layers. • Benefit • Each peer contribute its maximized bandwidth. • Minimize the overall transmission cost

  5. Architecture

  6. Architecture

  7. Message Flows • PUT-LAYER (Put Layer Information) into Tracker • GET-LAYER (Get Layer Information) from Tracker • PUT-CHUNK (Put Chunk Information) into Tracker • GET-PEERLIST (Peer Selection) • LAYER-CHANGE (Layer Change) • STATISTICS

  8. Open issues • Data Scheduling • Different strategy with single layer streaming • System Performance Metrics • Throughput and Delay • Layer Delivery Ratio • Useless Packets Ratio • Jitter Prevention • User Performance Metrics • Start-up Delay • Playback Continuity • Playback Delay

  9. User Performance Metrics • Start-up Delay • PCs and set-top boxes may all need to access and provide service for the same content. • Problem • Use multiple versions of video content (each encoded at different resolution or visual quality) • Peers in different versions will not help each other. • The overall video quality received will not be optimal.

  10. Q & A Thank you. Do you have any questions?

More Related