Difference between revisions of "Private:Ahmed Reading Summaries"

From NMSL
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* '''SC-FDMA''' Single Carrier Frequency Division Multiple Access
 
* '''SC-FDMA''' Single Carrier Frequency Division Multiple Access
 
* '''UTRAN''' UMTS Terrestrial Radio Access Network
 
* '''UTRAN''' UMTS Terrestrial Radio Access Network
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==== Long Term Evolution of 3GPP ====
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===== LTE PHY Layer =====
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* Based on OFDMA with cyclic prefix in downlink, and on SC-FDMA with a cyclic prefix in the uplink
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* Three duplexing modes are supported: full duplex FDD, half duplex FDD, and TDD
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* Two frame structure types:
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** ''Type-1'' shared by both full- and half-duplex FDD
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** ''Type-2'' applicable to TDD
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* Type-1 radio frame has a length of 10 ms and contains 20 slots (slot duration is 0.5 ms)
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* Two adjacent slots constitute a ''subframe'' of length 1 ms
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* Supported modulation schemes are: QPSK, 16QAM, 64QAM
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* Broadcast channel only uses QPSK
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* Maximum information block size = 6144 bits
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* CRC-24 used for error detection
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===== OFDMA Downlink =====
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* Scheduler in eNB (base station) allocates resource blocks (which are the smallest elements of resource allocation) to users for predetermined amount of time
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* Slots consist of either 6 (for long cyclic prefix) or 7 (for short cyclic prefix) OFDM symbols
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* Longer cyclic prefixes are desired to address longer fading
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* Number of available subcarriers changes depending on transmission bandwidth (but subcarrier spacing is fixed)
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==== Mobile Video Transmission Using Scalable Video Coding ====
 
==== Mobile Video Transmission Using Scalable Video Coding ====

Revision as of 00:08, 23 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

Acronyms

  • 3GPP 3rd Generation Partnership Project
  • BM-SC Broadcast Multicast Service Centre
  • CN Core Network
  • EPC Evolved Packet Core
  • EPS Evolved Packet System
  • LTE Long Term Evolution
  • MBMS Multimedia Broadcast Multicast Service
  • MIMO Multiple Input Multiple Output
  • OFDMA Orthogonal Frequency Division Multiple Access
  • SAE System Architecture Evolution
  • SC-FDMA Single Carrier Frequency Division Multiple Access
  • UTRAN UMTS Terrestrial Radio Access Network


Long Term Evolution of 3GPP

LTE PHY Layer
  • Based on OFDMA with cyclic prefix in downlink, and on SC-FDMA with a cyclic prefix in the uplink
  • Three duplexing modes are supported: full duplex FDD, half duplex FDD, and TDD
  • Two frame structure types:
    • Type-1 shared by both full- and half-duplex FDD
    • Type-2 applicable to TDD
  • Type-1 radio frame has a length of 10 ms and contains 20 slots (slot duration is 0.5 ms)
  • Two adjacent slots constitute a subframe of length 1 ms
  • Supported modulation schemes are: QPSK, 16QAM, 64QAM
  • Broadcast channel only uses QPSK
  • Maximum information block size = 6144 bits
  • CRC-24 used for error detection
OFDMA Downlink
  • Scheduler in eNB (base station) allocates resource blocks (which are the smallest elements of resource allocation) to users for predetermined amount of time
  • Slots consist of either 6 (for long cyclic prefix) or 7 (for short cyclic prefix) OFDM symbols
  • Longer cyclic prefixes are desired to address longer fading
  • Number of available subcarriers changes depending on transmission bandwidth (but subcarrier spacing is fixed)


Mobile Video Transmission Using Scalable Video Coding


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