SNMP-based ATM network management / Heng Pan.

Format:

Book

Author/Creator:

Pan, Heng.

Series:

Artech House telecommunications library

The Artech House telecommunications library

Language:

English

Subjects (All):

Simple Network Management Protocol (Computer network protocol).

Asynchronous transfer mode.

Computer networks--Management.

Computer networks.

Physical Description:

xiii, 390 pages : illustrations ; 24 cm.

Place of Publication:

Boston : Artech House, [1998]

Summary:

This practical book for microwave and RF engineers presents time-saving circuit design "recipes", without theory. The book reveals practical, test methods for designing and implementing a wide range of nonlinear RF and microwave circuits, including all types of mixers, frequency multipliers, and more. A special feature is a complete treatment of FET resistive mixers, which offer the lowest intermodulation distortion of all types of mixers.

Contents:

1.1 ATM Is Coming 2

1.2 Challenges of ATM Network Management 4

1.3 Organization of the Text 6

2 Simple Network Management Protocol 9

2.2 Management Model 11

2.2.1 Management Station 11

2.2.2 Management Agent 11

2.2.3 Proxy 12

2.3 Structure of Management Information 12

2.3.1 Object Definitions 14

2.3.2 Module Definitions 27

2.3.3 Notification Definitions 30

2.3.4 Textual Conventions 32

2.3.5 Conformance 34

2.3.6 SMI Summary 37

2.4 SNMP Protocol 38

2.4.1 Protocol Interactions 38

2.4.2 PDU Formats 39

2.4.3 MIB View 39

2.4.4 Retrieving Operations 42

2.4.5 set-request 48

2.4.6 Trap 50

2.4.7 inform-request 51

2.5 Management Information Base 53

2.5.1 Conceptual Table Handling 53

2.5.2 MIB II 57

2.6 Coexistence of SNMPv1 and SNMPv2 70

2.6.1 MIB Modules 70

2.6.2 Protocol Operations 71

3 Asynchronous Transfer Mode 75

3.2 Protocol Reference Model 76

3.2.1 Physical Layer 78

3.2.2 ATM Layer 79

3.2.3 ATM Adaptation Layer 80

3.2.4 Higher Layer 80

3.3 ATM Layer 80

3.3.1 ATM Transport Network 81

3.3.2 Virtual Connections 83

3.3.3 ATM Cell Header Format 88

3.4 ATM Adaptation Layer 90

3.4.1 AAL Type 1 91

3.4.2 AAL Type 3/4 92

3.4.3 AAL Type 5 95

3.5 Addressing Model 98

3.5.1 Public Network Addresses 99

3.5.2 Private Network Addresses 99

4 ATM Network Management Architecture 103

4.2 ATM Network Management Reference Model 105

4.3 Customer Network Management 108

4.4 Operation and Maintenance Functions 112

4.4.1 Fault Management 113

4.4.2 Performance Management 115

4.5 Telecommunications Management Network 115

4.5.1 TMN Architecture 117

4.5.2 TMN-Based ATM Management 123

4.5.3 CMIP Versus SNMP 125

5 Integrated Local Management Interface 131

5.1 Integrated Local Management Interface 131

5.1.1 ILMI Protocol 133

5.1.2 Proxy Agent 134

5.2 ILMI MIB 135

5.2.1 Link Management MIB 136

5.2.2 Address Registration MIB 148

5.2.3 Service Registry MIB 153

6 AToM MIB 155

6.2 Management Models 156

6.2.1 Permanent Virtual Connection Management 156

6.2.2 AAL5 Management 157

6.3 The Structure of the MIB 158

6.3.1 Physical Interface 158

6.3.2 ATM Cell Layer 160

6.3.3 Virtual Path 161

6.3.4 Virtual Channel 164

6.3.5 AAL5 166

6.3.6 Conformance 166

6.4 End-to-end Connection Management Using AToM MIB 167

6.4.1 Virtual Connection Establishment 168

6.4.1.3 Cross-Connect Virtual Links in the Intermediate Systems 171

6.4.2 Graceful Virtual Connection Release 174

6.4.3 Virtual Connection Reconfiguration 177

6.4.4 Tracing of VCs 179

6.5 AToM MIB Versus ILMI MIB 182

7 Physical Layer Management 185

7.1 Introduction to Digital Transmission Systems 186

7.2 SONET/SDH Physical Layer 187

7.2.1 Structure 188

7.2.2 Frame Format 190

7.2.3 OAM&P Functions 192

7.3 RFC 1595 SONET/SDH MIB 195

7.3.1 Management Model 195

7.3.2 MIB Structure 197

7.3.3 Medium Group 199

7.3.4 Section Management 200

7.3.5 Line/Path/VT Management 201

8 Private Network-Network Interface 203

8.2 PNNI Protocols 205

8.2.1 Routing 205

8.2.2 PNNI Signaling 213

8.3 PNNI MIB 220

8.3.1 Application of Relevant SNMP Standards 220

8.3.2 MIB Structure 220

8.3.3 MIB Groups 221

9 LAN Emulation 243

9.2 LANE UNI 244

9.2.1 Architecture 244

9.2.2 Protocol Operation 248

9.3 LANE Management Framework 252

9.4 Client Management 254

9.4.1 Management Model 254

9.4.2 MIB Structure 256

9.4.3 Index Mapping Group 256

9.4.4 LEC Group 257

9.4.5 LEC ATM Addresses Group 261

9.4.6 Registered LAN Destination Group 261

9.4.7 LE_ARP Cache Group 262

9.5 Service Management 263

9.5.1 Management Functions 263

9.5.2 LANE Server Management Model 265

9.5.3 ELAN MIB 266

9.5.4 LES MIB 280

9.5.5 Broadcast and Unknown Server MIB 286

10 The Role of Proprietary MIB 291

10.2 Cisco LightStream 1010 292

10.3 Proprietary MIB 294

10.4 Overview of LS1010 MIBs 296

10.4.1 General Management 298

10.4.2 ATM Layer 298

10.4.3 Physical Layer 299

10.4.4 ILMI 300

10.4.5 LANE 301

10.4.6 PNNI 303

10.4.7 Remote Network Monitoring 303

10.4.8 Accounting 304

10.4.9 OAM Ping 305

10.4.10 Access Control 306

11 ATM Connection Management 309

11.2 LS1010 Connection Management MIB 311

11.2.1 Traffic Information 312

11.2.2 Cross-Connect 312

11.2.3 Status Information and Statistics 314

11.2.4 Configuration Information 315

11.2.5 Soft Virtual Connection 315

11.2.6 VP/VC Specific Information 316

11.2.7 Traffic Management 316

11.3 Permanent Virtual Connection/SVC Management 316

11.3.1 Permanent Virtual Connection Management 316

11.3.2 SVC Management 316

11.4 Soft Virtual Connection Management 318

11.5 Logical Port Management 320

12 Traffic Management 323

12.2 ATM Service Categories 324

12.2.1 Constant Bit Rate (CBR) 324

12.2.2 Real-Time Variable Bit Rate (rt-VBR) 324

12.2.3 Non-Real-Time Variable Bit Rate (nrt-VBR) 325

12.2.4 Available Bit Rate (ABR) 325

12.2.5 Unspecified Bit Rate (UBR) 326

12.3 Mechanisms for Traffic Management 327

12.4 Traffic Model for ILMI 4.0 MIB 330

12.5 Traffic Model for AToM MIB 331

12.5.1 Conformance Definition for PCR 334

12.5.2 Conformance Definition for PCR CLP=0+1 and SCR CLP=0 335

12.5.3 Conformance Definition for PCR CLP=0+1 and SCR CLP=0+1 336

12.6 LS1010 Traffic Management 338

12.6.1 Traffic Model 338

12.6.2 Traffic Management for Virtual Connections 340

12.6.3 Switch Resource Management 342

13 OAM Flow Support 345

13.2 OAM Cell Formats 345

13.2.1 Alarm Surveillance 347

13.2.2 Connectivity Verification 347

13.3 OAM Support in LS1010 348

13.4 OAM Ping 350

14 Latest Developments 355

14.1 Limitations of the Current SNMP-Based ATM Management 355

14.2 SNMP Version 3 356

14.3 IETF AToM Working Group 358

Appendix A Current IETF Network Management RFCs 363

A.1 SNMPv1 Framework 363

A.2 SNMPv2 Framework 364

A.3 SNMPv3 364

A.4 MIB Modules 364

Appendix B Relevant Standards From the ATM Forum 369

Appendix C Useful Tools and URLs 373

C.1 MIB Compiler 373

C.2 MIB Browser 374

C.3 Useful URLs 374.

Notes:

Includes bibliographical references and index.

ISBN:

0890069832

0890069735

OCLC:

39339172