IEEE 1900.4 2009
$97.50
IEEE Standard for Architectural Building Blocks Enabling Network-Device Distributed Decision Making for Optimized Radio Resource Usage in Heterogeneous Wireless Access Networks
| Published By | Publication Date | Number of Pages |
| IEEE | 2009 | 131 |
New IEEE Standard – Active. The standard defines the building blocks comprising (i) network resource managers, (ii) device resource managers, and (iii) the information to be exchanged between the building blocks, for enabling coordinated network-device distributed decision making that will aid in the optimization of radio resource usage, including spectrum access control, in heterogeneous wireless access networks. The standard is limited to the architectural and functional definitions at a first stage. The corresponding protocols definition related to the information exchange will be addressed at a later stage.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | IEEE Std 1900.4™-2009 Front cover |
| 3 | Title page |
| 6 | Introduction Notice to users Laws and regulations Copyrights Updating of IEEE documents |
| 7 | Errata Interpretations Patents |
| 8 | Participants |
| 11 | Contents |
| 13 | Important notice 1. Overview 1.1 Scope 1.2 Purpose 1.3 Document overview |
| 14 | 2. Normative references |
| 15 | 3. Definitions, acronyms, and abbreviations 3.1 Definitions |
| 17 | 3.2 Acronyms and abbreviations 4. Overall system description 4.1 System overview |
| 19 | 4.2 Summary of use cases |
| 20 | 4.3 Assumptions 4.3.1 General 4.3.2 Dynamic spectrum assignment 4.3.3 Dynamic spectrum sharing |
| 21 | 4.3.4 Distributed radio resource usage optimization 5. Requirements 5.1 System requirements 5.1.1 Decision making |
| 22 | 5.1.2 Context awareness |
| 23 | 5.1.3 Reconfiguration |
| 24 | 5.2 Functional requirements 5.2.1 NRM functionality |
| 25 | 5.2.2 TRM functionality |
| 26 | 5.3 Information model requirements 6. Architecture 6.1 System description |
| 27 | 6.1.1 Entities 6.1.2 Interfaces between entities |
| 29 | 6.1.3 Reference model |
| 30 | 6.2 Functional description |
| 31 | 6.2.1 NRM functions |
| 33 | 6.2.2 TRM functions 6.2.3 Interfaces of NRM and TRM functions |
| 36 | 7. Information model 7.1 Introduction |
| 37 | 7.2 Information modeling approach 7.3 Information model classes |
| 38 | 7.3.1 Common base class 7.3.2 Policy classes 7.3.3 Terminal-related classes |
| 42 | 7.3.4 CWN-related classes |
| 44 | 8. Procedures 8.1 Introduction |
| 48 | 8.2 Generic procedures 8.2.1 Collecting context information |
| 51 | 8.2.2 Generating spectrum assignment policies |
| 52 | 8.2.3 Making spectrum assignment decision |
| 56 | 8.2.4 Performing spectrum access on network side |
| 58 | 8.2.5 Generating radio resource selection policies |
| 60 | 8.2.6 Performing reconfiguration on terminal side |
| 61 | 8.3 Examples of use case realization 8.3.1 Dynamic spectrum assignment |
| 62 | 8.3.2 Dynamic spectrum sharing |
| 63 | 8.3.3 Distributed radio resource usage optimization |
| 65 | Annex A (informative) Use cases A.1 Dynamic spectrum assignment A.1.1 Single operator scenario |
| 66 | A.1.2 Multiple operator scenario 1 (NRM is inside operator) |
| 69 | A.1.3 Multiple operator scenario 2 (NRM is outside operators) |
| 71 | A.2 Dynamic spectrum sharing |
| 73 | A.3 Distributed radio resource usage optimization |
| 75 | Annex B (normative) Class definitions for information model B.1 Notational tools |
| 76 | B.2 Common base class B.3 Policy classes |
| 78 | B.4 Terminal classes |
| 86 | B.5 CWN classes |
| 94 | B.6 Relations between terminal and CWN classes |
| 96 | Annex C (normative) Data type definitions for information model C.1 Function definitions |
| 98 | C.2 ASN.1 type definitions |
| 105 | Annex D (informative) Information model extensions and usage example D.1 Functions for external management interface |
| 106 | D.2 Additional utility classes |
| 115 | D.3 Additional ASN.1 type definitions for utility classes |
| 116 | D.4 Example for distributed radio resource usage optimization use case |
| 121 | Annex E (informative) Deployment examples E.1 Introduction E.2 Deployment examples for single operator scenario |
| 126 | E.3 Multiple operator scenario 1 (NRM is inside operator) |
| 127 | E.4 Multiple operator scenario 2 (NRM is outside operator) |
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