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Understanding LTE with MATLAB 书和Matlab代码
Understanding LTE with MATLAB?
Cover
Title Page
Copyright
Preface
List of Abbreviations
Chapter 1: Introduction
1.1 Quick Overview of Wireless Standards
1.2 Historical Profile of Data Rates
1.3 IMT-Advanced Requirements
1.4 3GPP and LTE Standardization
1.5 LTE Requirements
1.6 Theoretical Strategies
1.7 LTE-Enabling Technologies
1.8 LTE Physical Layer (PHY) Modeling
1.9 LTE (Releases 8 and 9)
1.10 LTE-Advanced (Release 10)
1.11 MATLAB? and Wireless System Design
1.12 Organization of This Book
References
Chapter 2: Overview of the LTE Physical Layer
2.1 Air Interface
2.2 Frequency Bands
2.3 Unicast and Multicast Services
2.4 Allocation of Bandwidth
2.5 Time Framing
2.6 Time–Frequency Representation
2.7 OFDM Multicarrier Transmission
2.8 Single-Carrier Frequency Division Multiplexing
2.9 Resource Grid Content
2.10 Physical Channels
2.11 Physical Signals
2.12 Downlink Frame Structures
2.13 Uplink Frame Structures
2.14 MIMO
2.15 MIMO Modes
2.16 PHY Processing
2.17 Downlink Processing
2.18 Uplink Processing
2.19 Chapter Summary
References
Chapter 3: MATLAB? for Communications System Design
3.1 System Development Workflow
3.2 Challenges and Capabilities
3.3 Focus
3.4 Approach
3.5 PHY Models in MATLAB
3.6 MATLAB
3.7 MATLAB Toolboxes
3.8 Simulink
3.9 Modeling and Simulation
3.10 Prototyping and Implementation
3.11 Introduction to System Objects
3.12 MATLAB Channel Coding Examples
3.13 Chapter Summary
References
Chapter 4: Modulation and Coding
4.1 Modulation Schemes of LTE
4.2 Bit-Level Scrambling
4.3 Channel Coding
4.4 Turbo Coding
4.5 Early-Termination Mechanism
4.6 Rate Matching
4.7 Codeblock Segmentation
4.8 LTE Transport-Channel Processing
4.9 Chapter Summary
References
Chapter 5: OFDM
5.1 Channel Modeling
5.2 Scope
5.3 Workflow
5.4 OFDM and Multipath Fading
5.5 OFDM and Channel-Response Estimation
5.6 Frequency-Domain Equalization
5.7 LTE Resource Grid
5.8 Configuring the Resource Grid
5.9 Generating Reference Signals
5.10 Resource Element Mapping
5.11 OFDM Signal Generation
5.12 Channel Modeling
5.13 OFDM Receiver
5.14 Resource Element Demapping
5.15 Channel Estimation
5.16 Equalizer Gain Computation
5.17 Visualizing the Channel
5.18 Downlink Transmission Mode 1
5.19 Chapter Summary
References
Chapter 6: MIMO
6.1 Definition of MIMO
6.2 Motivation for MIMO
6.3 Types of MIMO
6.4 Scope of MIMO Coverage
6.5 MIMO Channels
6.6 Common MIMO Features
6.7 Specific MIMO Features
6.8 Chapter Summary
References
Chapter 7: Link Adaptation
7.1 System Model
7.2 Link Adaptation in LTE
7.3 MATLAB? Examples
7.4 Link Adaptations between Subframes
7.5 Adaptive Modulation
7.6 Adaptive Modulation and Coding Rate
7.7 Adaptive Precoding
7.8 Adaptive MIMO
7.9 Downlink Control Information
7.10 Chapter Summary
References
Chapter 8: System-Level Specification
8.1 System Model
8.2 System Model in MATLAB
8.3 Quantitative Assessments
8.4 Throughput Analysis
8.5 System Model in Simulink
8.6 Qualitative Assessment
8.7 Chapter Summary
References
Chapter 9: Simulation
9.1 Speeding Up Simulations in MATLAB
9.2 Workflow
9.3 Case Study: LTE PDCCH Processing
9.4 Baseline Algorithm
9.5 MATLAB Code Profiling
9.6 MATLAB Code Optimizations
9.7 Using Acceleration Features
9.8 Using a Simulink Model
9.9 GPU Processing
9.10 Case Study: Turbo Coders on GPU
9.11 Chapter Summary
Chapter 10: Prototyping as C/C++ Code
10.1 Use Cases
10.2 Motivations
10.3 Requirements
10.4 MATLAB Code Considerations
10.5 How to Generate Code
10.6 Structure of the Generated C Code
10.7 Supported MATLAB Subset
10.8 Complex Numbers and Native C Types
10.9 Support for System Toolboxes
10.10 Support for Fixed-Point Data
10.11 Support for Variable-Sized Data
10.12 Integration with Existing C/C++ Code
10.13 Chapter Summary
References
Chapter 11: Summary
11.1 Modeling
11.2 Simulation
11.3 Directions for Future Work
11.4 Concluding Remarks
Index
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