Читать книгу Dynamic Spectrum Access Decisions - George F. Elmasry - Страница 2
Table of Contents
Оглавление1 Cover
4 Preface
7 Part I DSA Basic Design Concept Chapter 1: Introduction 1.1 Summary of DSA Decision‐making Processes 1.2 The Hierarchy of DSA Decision Making 1.3 The Impact of DSA Control Traffic 1.4 The Involvedness of DSA Decision Making 1.5 The Pitfalls of DSA Decision Making 1.6 Concluding Remarks Exercises Bibliography Chapter 2: Spectrum Sensing Techniques 2.1 Multidimensional Spectrum Sensing and Sharing 2.2 Time, Frequency, and Power Spectrum Sensing 2.3 Energy Detection Sensing 2.4 Signal Characteristics Spectrum Sensing 2.5 Euclidean Space Based Detection 2.6 Other Sensing Techniques 2.7 Concluding Remarks Exercises Appendix 2A: The Difference Between Signal Power and Signal Energy Bibliography Chapter 3: Receiver Operating Characteristics and Decision Fusion 3.1 Basic ROC Model Adaptation for DSA 3.2 Adapting the ROC Model for Same‐channel in‐band Sensing 3.3 Decision Fusion 3.4 Concluding Remarks Appendix 3A: Basic Principles of the ROC Model The ROC Curve as Connecting Points 3A.2 The ROC Curve Classifications Bibliography Chapter 4: Designing a Hybrid DSA System 4.1 Reasons for Using Hybrid DSA Design Approaches 4.2 Decision Fusion Cases 4.3 The Role of Other Cognitive Processes 4.4 How Far can Distributed Cooperative DSA Design go? 4.5 Using a Centralized DSA Arbitrator 4.6 Concluding Remarks Exercises Bibliography
8 Part II Case Studies Chapter 5: DSA as a Set of Cloud Services 5.1 DSA Services in the Hierarchy of Heterogeneous Networks 5.2 The Generic DSA Cognitive Engine Skeleton 5.3 DSA Cloud Services Metrics 5.4 Concluding Remarks Bibliography Chapter 6: Dynamic Spectrum Management for Cellular 5G Systems 6.1 Basic Concepts of 5G 6.2 Spatial Modeling and the Impact of 5G Dense Cell Deployment 6.3 Stages of 5G SI Cancellation 6.4 5G and Cooperative Spectrum Sensing 6.5 Power Control, Orthogonality, and 5G Spectrum Utilization 6.6 The Role of the Cell and End‐User Devices in 5G DSM 6.7 Concluding Remarks Bibliography Chapter 7: DSA and 5G Adaptation to Military Communications 7.1 Multilayer Security Enhancements of 5G 7.2 MIMO Design Considerations 7.3 Multifaceted Optimization of MU MIMO Channels in Military Applications 7.4 Other Security Approaches 7.5 Concluding Remarks Bibliography Chapter 8: DSA and Co‐site Interference Mitigation 8.1 Power Spectral Density Lobes 8.2 Co‐site Interference between Frequencies in Different Bands 8.3 Co‐site Interference From Unlicensed Frequency Blocks 8.4 Adapting the Platform's Co‐site Interference Analysis Process for DSA Services 8.5 Adapting the External System's Co‐site Interference Analysis for DSA 8.6 Considering the Intersystem Co‐site Interference Impact 8.7 Using Lookup Tables as Weighted Metrics 8.8 Co‐site Interference Incorporation in Decision Fusion and Fine‐Tuning of Co‐site Impact 8.9 DSA System co‐site Interference Impact on External Systems 8.10 The Locations Where Co‐site Interference Lookup Tables and Metrics are Utilized 8.11 Concluding Remarks Bibliography
9 Part III United States Army's Techniques for Spectrum Management Operations Chapter 9: Overview 9.1 Electromagnetic Spectrum 9.2 Definition 9.3 Objective 9.4 Core Functions 9.5 Army Spectrum Management Operations Process Chapter 10: Tactical Staff Organization and Planning 10.1 Spectrum Management Operations for Corps and Below 10.2 Division, Brigade and Battalion Spectrum Operations 10.3 Spectrum Managers Assigned to Cyber Electromagnetic Activity Working Group 10.4 Cyber Electromagnetic Activities Element 10.5 Tips for Spectrum Managers 10.6 The Military Decisionmaking Process 10.7 Support to the MDMP Steps 10.8 The Common Operational Picture Chapter 11: Support to the Warfighting Functions 11.1 Movement and Maneuver 11.2 Intelligence 11.3 Fires 11.4 Sustainment 11.5 Mission Command 11.6 Protection Chapter 12: Joint Task Force Considerations 12.1 Inputs and Products of Joint Task Force Spectrum Managers 12.2 Joint Frequency Management Office 12.3 Joint Spectrum Management Element 12.4 Spectrum Management Support to Defense Support of Civil Authorities Chapter 13: Spectrum Management Operations Tools 13.1 Tool Considerations 13.2 Joint Spectrum Interference Resolution Online 13.3 Joint Spectrum Data Repository Appendix A: Spectrum Management Task List A.1 Tasks A.2 Sub‐task List A.3 SMO to EW Flow Charts Appendix B: Capabilities and Compatibility between Tools B.1 Capabilities and Compatibility Appendix C: Spectrum Physics C.1 Radio Frequency Appendix D: Spectrum Management Lifecycle D.1 Spectrum Management Lifecycle Appendix E: Military Time Zone Designators E.1 Overview References Required Publications Related Publications Army Publications Prescribed Forms Referenced Forms Websites
10 Part IV The IEEE Standards 1900x – 2019 – Dynamic Spectrum Access Networks Standards Committee (DySPAN-SC) Chapter 14: IEEE Standard for Definitions and Concepts for Dynamic Spectrum Access: Terminology Relating to Emerging Wireless Networks, System Functionality, and Spectrum Management 14.1 Overview 14.2 Acronyms and Abbreviations 14.3 Definitions of Advanced Radio System Concepts 14.4 Definitions of Radio System Functional Capabilities 14.5 Definitions of Decision‐making and Control Concepts that Support Advanced Radio System Technologies 14.6 Definitions of Network Technologies that Support Advanced Radio System Technologies 14.7 Spectrum Management Definitions 14.8 Glossary of Ancillary Terminology Chapter 15: IEEE Recommended Practice for the Analysis of In‐Band and Adjacent Band Interference and Coexistence Between Radio Systems 15.1 Overview 15.2 Normative References 15.3 Definitions, Acronyms, And Abbreviations 15.4 Key Concepts 15.5 Structure of Analysis and Report 15.6 Scenario Definition 15.7 Criteria for Interference 15.8 Variables 15.9 Analysis—modeling, Simulation, Measurement, and Testing 15.10 Conclusions and Summary 16 IEEE Standard for Architectural Building Blocks Enabling Network‐Device Distributed Decision Making for Optimized Radio Resource Usage in Heterogeneous Wireless Access Networks 17 IEEE Standard for Policy Language Requirements and System Architectures for Dynamic Spectrum Access Systems 17.1 Overview 17.2 Normative References 17.3 Definitions, Acronyms, and Abbreviations 17.4 Architecture Requirements for Policy‐based Control of DSA Radio Systems 17.5 Architecture Components and Interfaces for Policy‐based Control of DSA Radio Systems 17.6 Policy Language and Reasoning Requirements Chapter 18: IEEE Standard for Spectrum Sensing Interfaces and Data Structures for Dynamic Spectrum Access and Other Advanced Radio Communication Systems Annex 19A: IEEE Standard for Radio Interface for White Space Dynamic Spectrum Access Radio Systems Supporting Fixed and Mobile Operation 19.1 Overview 19.2 Definitions, Acronyms, and Abbreviations 19.3 Reference Model 19.4 MAC Sublayer 19.5 PHY Layer
11 Index
