Purchase "Flexible Radio Spectrum Access" ISBN 0-9775232-0-9, Edition 1.0, 145 pages, hardcover, 18 x 23cm
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There are many stakeholders in spectrum management: political; economic; legal; spectrum planning; equipment manufacturing; social and occupation related. Flexible use requires a fundamental change in the way spectrum is managed. ãFlexible Radio Spectrum Accessä sets out the essential technical requirements for flexible spectrum access in a manner that helps to bridge the communication gap between the stakeholders by presenting the fundamentals of radio interference management in a flexible usage context, written in a manner that can be understood by those without significant previous exposure to the subject.
Sufficient issues are covered and at a sufficient level of detail to enable the limitations and possibilities of flexible spectrum use to become reasonably clear.
Contents
Preface and Acknowledgements 1
Chapter 1 - Facilitating Innovation 9
- 1.1 The Regulator’s Bottom Line 10
- 1.2 Levels of Autonomy 11
- 1.3 Precursors for Flexible Spectrum Access 12
- 1.4 Reducing the Tyranny of Standards 13
- 1.4.1 Market Dominance 13
- 1.4.2 User Roaming 14
- 1.4.3 Interoperability 15
- 1.4.4 Simplified Interference Management 15
- 1.5 Harmonised Radio Spectrum Use 16
- 1.6 Danger of Too Few Technical Rules 17
Chapter 2 - Authorising Use of a Radio Spectrum Space 23
- 2.1 Licensing 26
- 2.1.1 Apparatus Licensing: Coordination Using Administrative Rules 27
- 2.1.2 Spectrum Licensing: Market-Based Coordination 27
- 2.1.3 Class Licensing: Dynamic Coordination in Common Spectrum 29
- 2.2 Authorisation and Coordination 30
Chapter 3 - Spectrum Access Rights 33
- 3.1 Pictorial Representation of Interference between Spectrum Spaces 34
- 3.2 Explicit Transmit Rights 35
- 3.3 Implicit Receive Rights 38
- 3.4 Rights of a Legacy Service 38
- 3.4.1 Converting Legacy Services into Spectrum Licences 39
- 3.4.2 Managing Loss of Spectrum Utility Caused by Legacy Services 40
- 3.5 Spectrum Access Rights and Device-Centric Management 42
Chapter 4 - Heart of the Solution 47
- 4.1 Service Types 47
- 4.2 Guard Space 50
- 4.2.1 Guard Band 50
- 4.2.2 Guard Area 50
- 4.3 Authorising Any Technology and Service 51
- 4.3.1 A Common Mental Block 52
- 4.4 Flexible Spectrum Access in Australia 52
Chapter 5 - Interference Categories 57
- 5.1 The Three Interference Categories 57
- 5.1.1 Interference Category A 57
- 5.1.2 Interference Category B 58
- 5.1.3 Interference Category C 59
- 5.2 Interference Benchmarks 60
- 5.3 Benchmarks for In-band Interference 62
- 5.3.1 Category A Benchmark 62
- 5.3.2 Category B Benchmarks 63
- 5.4 Benchmarks for Out-of-band Interference 65
- 5.4.1 Elements of a Receiver 65
- 5.4.2 Receiver Selectivity 66
- 5.4.3 Receiver Blocking 67
- 5.4.4 Receiver Spurious Response 67
- 5.4.5 Receiver Intermodulation 67
Chapter 6 - Practical Interference Benchmarks 73
- 6.1 Category A Benchmark: The Device Boundary Criterion 73
- 6.1.1 Power Spectral Density and Technology Neutrality 74
- 6.1.2 Propagation Model 75
- 6.1.3 Objectives for the Device Boundary 78
- 6.2 Category B Benchmark: Average Broadband Out-of-band Emission Limits 79
- 6.2.1 Adjacent Channel Leakage Ratio (ACLR) 80
- 6.2.2 Category B Interference Scenarios 81
- 6.2.3 Managing the Category B Scenarios 82
- 6.2.4 “Near-Far” Interference 83
- 6.2.5 Managing “Near-Far” Interference 85
- 6.3 Category B Benchmark: Peak Out-of-band Emission Limits 86
- 6.4 Category B Benchmark: Average Discrete Out-of-band Emission Limits 88
- 6.5 Category C Benchmark: Model coordination Procedure 89
- 6.5.1 Propagation Model 91
- 6.5.2 Compatibility Requirement 91
- 6.6 Lessons from USA 800 MHz Public Safety Interference 92
- 6.7 Deployment Constraints 95
- 6.7.1 Effective Antenna Height 95
- 6.7.2 Restrictions on when the Model coordination Procedure is applied 95
- 6.7.3 Managing Category C Interference under Guard Space Authorisation98
- 6.8 Lessons from New Zealand: the Telecom and Bell South Dispute 99
- 6.9 Collision Avoidance Benchmark 100
- 6.10 Assigning Responsibilities for Interference Settlement 101
- 6.10.1 Spectrum Denial from First-in-Time Interference Settlement Policies 101
- 6.10.2 Settlement of Interference 102
- 6.10.3 The Special Case of Co-Located Services 103
- 6.10.4 The Co-Location Benchmark 105
- 6.10.5 Underlay Services and Spectrum Exclusivity 105
- 6.11 Benchmark for Minimum Frequency Bandwidth 107
Chapter 7 - Spectrum Access Rules 111
- 7.1 Constructing a Set of Interference Benchmarks 112
- 7.2 Parameter Values for the Interference Benchmarks 113
- 7.3 Establishing the Technology and Service Model 114
- 7.4 Integrating Type Approval with Authorisation 116
- 7.5 Distinguishing New Types of Equipment 116
- 7.6 Outsourcing Authorisation Certification and its Associated Liability 117
- 7.7 Rollout Obligations 118
Chapter 8 - The Register 121
- 8.1 Data to Support Explicit Transmit Rights 122
- 8.2 Data to Support Implicit Receive Rights 123
- 8.3 Data to Support the Rights of a Legacy Service 125
Chapter 9 - Dynamic Spectrum Access 129
- 9.1 Device Authorisation 131
- 9.1.1 Maximum Transmitter Power 131
- 9.1.2 Overall Range of Available Transmit Frequencies 132
- 9.1.3 Unavailable Transmit Frequencies 132
- 9.1.4 Available Receive Frequencies 133
- 9.2 Device Coordination 133
- 9.3 Commercial Cognitive Radio 134
- 9.4 FCC 3650 MHz Planning Experiment 135
Chapter 10 - Wrap Up 139
- 10.1 Licensing Methods and Interference Management 140
- 10.2 Preserving the Utility of a Flexible Spectrum Licence 141
- 10.2.1 A Space-Centric Approach 142
- 10.2.2 The Role of Guard Space in Flexible Spectrum Licensing 142
- 10.2.3 Spectrum Access Rights 143
- 10.2.4 Authorising Transmitters not Compliant with the Transmit Rights 144
- 10.3 Outsourcing Flexible Radio Spectrum Access 144