Difference between revisions of "Private:Ahmed Reading Summaries"
From NMSL
| Line 15: | Line 15: | ||
* Optimal Transmission Scheduling for Scalable Wireless Video Broadcast with Rateless Erasure Correction Code | * Optimal Transmission Scheduling for Scalable Wireless Video Broadcast with Rateless Erasure Correction Code | ||
* Dynamic Session Control for Scalable Video Coding over IMS | * Dynamic Session Control for Scalable Video Coding over IMS | ||
| − | * | + | * Mobile Broadband: Including WiMAX and LTE |
| − | * Chapter-11: | + | ** Chapter-11: Long Term Evolution of 3GPP |
| − | * Chapter- | + | * 3G Evolution HSPA and LTE for Mobile Broadband |
| − | * Chapter-14: Broadcast Operation | + | ** Chapter-11: MBMS: Multimedia Broadcast Multicast Service |
| + | * The UMTS Long Term Evolution: From Theory to Practice | ||
| + | ** Chapter-2: Network Architecture | ||
| + | ** Chapter-14: Broadcast Operation | ||
==== MBMS ==== | ==== MBMS ==== | ||
Revision as of 17:22, 20 July 2009
Will summarize the readings here..
Peer-to-Peer and SVC
- Peer-Driven Video Streaming: Multiple Descriptions versus Layering
- Layered Coding vs. Multiple Descriptions for Video Streaming over Multiple Paths
- Evaluation of the H.264 Scalable Video Coding in Error Prone IP Networks
- Overview of the Scalable Video Coding Extension of the H.264/AVC Standard
- Enabling Adaptive Video Streaming in P2P Systems
Long Term Evolution (LTE)
- Mobile Video Transmission Using Scalable Video Coding
- LTE - An Introduction
- Optimal Transmission Scheduling for Scalable Wireless Video Broadcast with Rateless Erasure Correction Code
- Dynamic Session Control for Scalable Video Coding over IMS
- Mobile Broadband: Including WiMAX and LTE
- Chapter-11: Long Term Evolution of 3GPP
- 3G Evolution HSPA and LTE for Mobile Broadband
- Chapter-11: MBMS: Multimedia Broadcast Multicast Service
- The UMTS Long Term Evolution: From Theory to Practice
- Chapter-2: Network Architecture
- Chapter-14: Broadcast Operation
MBMS
- Introduced for WCDMA (UMTS) in Release 6
- Supports multicast/broadcast services in a cellular system
- Same content is transmitted to multiple users located in a specific area (MBMS service area) in a unidirectional fashion
- The Broadcast Multicast Service Center (BM-SC) node is responsible for authorization and authentication of content provider, charging, and overall data flow through Core Network (CN)
- In case of multicast, a request to join the session has to be sent to become member of the corresponding MBMS service group
- In contrast to previous releases of Universal Terrestrial Radio Access Network (UTRAN), in MBMS a data stream intended for multiple users is not split until necessary (in UTRAN, one stream per user existed both within CN and RAN)
- MBMS services are power limited and maximize the diversity without relying on feedback from users
- Two techniques are used to provide diversity:
- Macro-diversity: combining transmission from multiple cells
- Soft combining: combines the soft bits received from the different radio links prior to (Turbo) coding
- Selection combining: decoding the signal received from each cell individually, and for each TTI selects one (if any) of the correctly decoded data blocks for further processing by higher layers
- Time-diversity: against fast fading through a long Transmission Time Interval (TTI) and application-level coding
- because broadcast cannot rely on feedback, MBMS uses application-level forward error-correcting coding, namely Systematic Raptor codes
- Macro-diversity: combining transmission from multiple cells
