Contents: Chapter 1. Evolution of Cellular Technologies.
Section 1.1.Introduction
Section 1.1.Evolution of Mobile Broadband
Section 1.1.The Case for LTE/SAE
Section 1.1.Key Enabling Technologies and Features of LTE
Section 1.1.LTE Network Architecture
Section 1.1.Spectrum Options and Migration Plans for LTE
Section 1.1.Future of Mobile Broadband—Beyond LTE
Section 1.1.Summary and Conclusions
Part I: LTE Tutorials Chapter 2. Wireless Fundamentals
Section 2.1.Communication System Building Blocks
Section 2.1.The Broadband Wireless Channel: Path Loss and Shadowing
Section 2.1.Cellular Systems
Section 2.1.The Broadband Wireless Channel: Fading
Section 2.1.Modelling Broadband Fading Channels
Section 2.1.Mitigation of Narrowband Fading
Section 2.1.Mitigation of Broadband Fading
Section 2.1.Chapter Summary
Chapter 3. Multicarrier Modulation
Section 3.1.The Multicarrier Concept
Section 3.2.OFDM Basics
Section 3.3.OFDM in LTE
Section 3.4.Timing and Frequency Synchronization
Section 3.5.The Peak-to-Average Ratio
Section 3.6.Single-Carrier Frequency Domain Equalization (SC-FDE)
Section 3.7.The Computational Complexity Advantage of OFDM and SC-FDE
Section 3.8.Chapter Summary
Chapter 4. Frequency Domain Multiple Access: OFDMA and SC-FDMA
Section 4.1.Multiple Access for OFDM Systems
Section 4.2.Orthogonal Frequency Division Multiple Access (OFDMA)
Section 4.3.Single-Carrier Frequency Division Multiple Access (SC-FDMA)
Section 4.4.Multiuser Diversity and Opportunistic Scheduling
Section 4.5.OFDMA and SC-FDMA in LTE
Section 4.6.OFDMA System Design Considerations
Section 4.7.Chapter Summary
Chapter 5. Multiple Antenna Transmission and Reception
Section 5.1.Spatial Diversity Overview
Section 5.1.Receive Diversity
Section 5.1.Transmit Diversity
Section 5.1.Interference Cancellation Suppression and Signal Enhancement
Section 5.1. Spatial Multiplexing
Section 5.1.How to Choose Between Diversity, Interference Suppression, and Spatial Multiplexing
Section 5.1.Channel Estimation and Feedback for MIMO and MIMO-OFDM
Section 5.1.Practical Issues That Limit MIMO Gains
Section 5.1.Multiuser and Networked MIMO Systems
Section 5.1.An Overview of MIMO in LTE
Section 5.1.Chapter Summary
Part II: The LTE Standard Chapter 6: Overview and Channel Structure of LTE
Section 6.1.Introduction to LTE
Section 6.2.Hierarchical Channel Structure of LTE
Section 6.3.Downlink OFDMA Radio Resources
Section 6.4.Uplink SC-FDMA Radio Resources
Section 6.5.Summary and Conclusion
Chapter 7. Downlink Transport Channel Processing
Section 7.1.Downlink Transport Channel Processing Overview
Section 7.1.Downlink Shared Channels
Section 7.1.Downlink Control Channels
Section 7.1.Broadcast Channels
Section 7.1.Multicast Channels
Section 7.1.Downlink Physical Signals
Section 7.1.H-ARQ in the Downlink
Section 7.1.Summary and Conclusions
Chapter 8. Uplink Transport Channel Processing
Section 8.1.Uplink Transport Channel Processing
Section 8.2.Uplink Shared Channels
Section 8.3.Uplink Control Information
Section 8.4.Uplink Reference Signals
Section 8.5.Random Access Channel
Section 8.6.H-ARQ in the Uplink
Section 8.7.Summary and Conclusion
Chapter 9. Physical Layer Procedures and Scheduling
Section 9.1.Hybrid-ARQ Feedback
Section 9.2.Channel Quality Indicator (CQI) Feedback
Section 9.3.Precoder for Closed-Loop MIMO Operation
Section 9.4.Uplink Channel Sounding
Section 9.5.Buffer Status Reporting in Uplink
Section 9.6.Scheduling and Resource Allocation
Section 9.7.Semi-persistent Scheduling for VoIP
Section 9.8.Cell Search
Section 9.9.Random Access Procedure
Section 9.10.Power Control in Uplink
Section 9.11.Summary and Conclusion
Chapter 10. Data Flow, Radio Resource Management, and Mobility Management
Section 10.1.PDCP Overview
Section 10.2.MAC/RLC Overview
Section 10.3.RRC Overview
Section 10.4.Mobility Management
Section 10.5.Inter-Cell Interference Coordination
Section 10.6.Summary and Conclusions
Last edited by patarian; 2011-09-10 at 08:14 PMReason: link file edittion
Contents: Chapter 1. Evolution of Cellular Technologies.
Section 1.1.Introduction
Section 1.1.Evolution of Mobile Broadband
Section 1.1.The Case for LTE/SAE
Section 1.1.Key Enabling Technologies and Features of LTE
Section 1.1.LTE Network Architecture
Section 1.1.Spectrum Options and Migration Plans for LTE
Section 1.1.Future of Mobile Broadband—Beyond LTE
Section 1.1.Summary and Conclusions
Part I: LTE Tutorials Chapter 2. Wireless Fundamentals
Section 2.1.Communication System Building Blocks
Section 2.1.The Broadband Wireless Channel: Path Loss and Shadowing
Section 2.1.Cellular Systems
Section 2.1.The Broadband Wireless Channel: Fading
Section 2.1.Modelling Broadband Fading Channels
Section 2.1.Mitigation of Narrowband Fading
Section 2.1.Mitigation of Broadband Fading
Section 2.1.Chapter Summary
Chapter 3. Multicarrier Modulation
Section 3.1.The Multicarrier Concept
Section 3.2.OFDM Basics
Section 3.3.OFDM in LTE
Section 3.4.Timing and Frequency Synchronization
Section 3.5.The Peak-to-Average Ratio
Section 3.6.Single-Carrier Frequency Domain Equalization (SC-FDE)
Section 3.7.The Computational Complexity Advantage of OFDM and SC-FDE
Section 3.8.Chapter Summary
Chapter 4. Frequency Domain Multiple Access: OFDMA and SC-FDMA
Section 4.1.Multiple Access for OFDM Systems
Section 4.2.Orthogonal Frequency Division Multiple Access (OFDMA)
Section 4.3.Single-Carrier Frequency Division Multiple Access (SC-FDMA)
Section 4.4.Multiuser Diversity and Opportunistic Scheduling
Section 4.5.OFDMA and SC-FDMA in LTE
Section 4.6.OFDMA System Design Considerations
Section 4.7.Chapter Summary
Chapter 5. Multiple Antenna Transmission and Reception
Section 5.1.Spatial Diversity Overview
Section 5.1.Receive Diversity
Section 5.1.Transmit Diversity
Section 5.1.Interference Cancellation Suppression and Signal Enhancement
Section 5.1. Spatial Multiplexing
Section 5.1.How to Choose Between Diversity, Interference Suppression, and Spatial Multiplexing
Section 5.1.Channel Estimation and Feedback for MIMO and MIMO-OFDM
Section 5.1.Practical Issues That Limit MIMO Gains
Section 5.1.Multiuser and Networked MIMO Systems
Section 5.1.An Overview of MIMO in LTE
Section 5.1.Chapter Summary
Part II: The LTE Standard Chapter 6: Overview and Channel Structure of LTE
Section 6.1.Introduction to LTE
Section 6.2.Hierarchical Channel Structure of LTE
Section 6.3.Downlink OFDMA Radio Resources
Section 6.4.Uplink SC-FDMA Radio Resources
Section 6.5.Summary and Conclusion
Chapter 7. Downlink Transport Channel Processing
Section 7.1.Downlink Transport Channel Processing Overview
Section 7.1.Downlink Shared Channels
Section 7.1.Downlink Control Channels
Section 7.1.Broadcast Channels
Section 7.1.Multicast Channels
Section 7.1.Downlink Physical Signals
Section 7.1.H-ARQ in the Downlink
Section 7.1.Summary and Conclusions
Chapter 8. Uplink Transport Channel Processing
Section 8.1.Uplink Transport Channel Processing
Section 8.2.Uplink Shared Channels
Section 8.3.Uplink Control Information
Section 8.4.Uplink Reference Signals
Section 8.5.Random Access Channel
Section 8.6.H-ARQ in the Uplink
Section 8.7.Summary and Conclusion
Chapter 9. Physical Layer Procedures and Scheduling
Section 9.1.Hybrid-ARQ Feedback
Section 9.2.Channel Quality Indicator (CQI) Feedback
Section 9.3.Precoder for Closed-Loop MIMO Operation
Section 9.4.Uplink Channel Sounding
Section 9.5.Buffer Status Reporting in Uplink
Section 9.6.Scheduling and Resource Allocation
Section 9.7.Semi-persistent Scheduling for VoIP
Section 9.8.Cell Search
Section 9.9.Random Access Procedure
Section 9.10.Power Control in Uplink
Section 9.11.Summary and Conclusion
Chapter 10. Data Flow, Radio Resource Management, and Mobility Management
Section 10.1.PDCP Overview
Section 10.2.MAC/RLC Overview
Section 10.3.RRC Overview
Section 10.4.Mobility Management
Section 10.5.Inter-Cell Interference Coordination
Section 10.6.Summary and Conclusions
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