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The ComSoc guide to next generation optical transport : SDH/SONET/OTN / / Huub van Helvoort
| The ComSoc guide to next generation optical transport : SDH/SONET/OTN / / Huub van Helvoort |
| Autore | Helvoort Huub van |
| Pubbl/distr/stampa | Piscataway, New Jersey : , : IEEE Press, , c2009 |
| Descrizione fisica | 1 online resource (225 p.) |
| Disciplina |
621.382
621.3827 |
| Collana | The ComSoc guides to communications technologies |
| Soggetto topico |
Optical communications
SONET (Data transmission) Synchronous digital hierarchy (Data transmission) |
| ISBN |
1-282-36270-4
9786612362705 0-470-48044-0 0-470-48043-2 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
PREFACE -- 1. INTRODUCTION TO OPTICAL TRANSPORT -- 1.1 History -- 1.2 Conventions -- 1.3 Standard Documents from Different SDOs -- 2. NETWORK ARCHITECTURES: THE STRUCTURE OF THE NETWORK -- 2.1 Network Topology -- 2.2 Network Functional Model -- 3. FRAMES AND STRUCTURES: TRANSPORT IN CONTAINERS -- 3.1 SDH Frames and Structures -- 3.2 OTN Frames and Structures -- 3.3 PDH Frame Structures -- 3.4 PTN Frame Structures -- 4. NETWORK MODELING: LAYERS AND ATOMIC FUNCTIONS. -- 4.1 The Synchronous Digital Hierarchy SDH -- 4.2 The SDH Higher Order Path (Sn) Layer -- 4.3 The SDH Lower Order Path (Sm) Layer -- 4.4 The SDH Multiplex Section (MSn) Layer -- 4.5 The SDH Regenerator Section (RSn) Layer -- 4.6 The SDH Optical Section (OSn) Layer -- 4.7 The SDH Electrical Section (ES1) Layer -- 4.8 The Layers Below the SDH OSn and ES1 Layer -- 4.9 The Optical Transport Network OTN -- 4.10 The OTN Optical Channel Data Unit Layer (ODUk) -- 4.11 The OTN Optical Channel Transport Unit Layer (OTUk) -- 4.12 The OTN Optical Channel Layer (OCh) -- 4.13 The OTN Optical Multiplex Section Layer (OMSn) -- 4.14 The OTN Optical Transmission Section Layer (OTSn) -- 4.15 The OTN Optical Physical Section Layer (OPS) -- 5. PACKET TRANSPORT NETWORK MODELING: EXTENDING THE MODEL TO NGN -- 5.1 The Generic PTN Layer -- 5.2 The PTN-Specifi c OAM Traffic Units -- 6. FREQUENCY JUSTIFICATION: POINTERS AND STUFFING -- 6.1 Pointer Processing -- 6.2 Bit Stuffing -- 6.3 Positive and Negative Justification -- 7. PROTECTION MECHANISMS: IMPROVE AVAILABILITY -- 7.1 Availability -- 7.2 Protection Architectures -- 7.3 Protection Classes -- 8. MAPPING METHODOLOGIES: FITTING THE PAYLOAD IN THE CONTAINER -- 8.1 SDH/SONET--Container C-n Mapping -- 8.2 OTN--Container OPUk Mapping -- 8.3 GFP Mapping -- 9. CONCATENATION: TO GROW AND PROVIDE FLEXIBILITY. -- 9.1 Contiguous Concatenation (CCAT) -- 9.2 Virtual Concatenation (VCAT) -- 9.3 Link Capacity Adjustment Scheme (LCAS) -- 10. SDH VS. SONET OVERHEAD PROCESSING: COMMONALITIES AND DIFFERENCES.
ABBREVIATIONS -- REFERENCES -- BIBLIOGRAPHY -- INDEX. |
| Record Nr. | UNINA-9910140012303321 |
Helvoort Huub van
|
||
| Piscataway, New Jersey : , : IEEE Press, , c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The ComSoc guide to next generation optical transport : SDH/SONET/OTN / / Huub van Helvoort
| The ComSoc guide to next generation optical transport : SDH/SONET/OTN / / Huub van Helvoort |
| Autore | Helvoort Huub van |
| Pubbl/distr/stampa | Piscataway, New Jersey : , : IEEE Press, , c2009 |
| Descrizione fisica | 1 online resource (225 p.) |
| Disciplina |
621.382
621.3827 |
| Collana | The ComSoc guides to communications technologies |
| Soggetto topico |
Optical communications
SONET (Data transmission) Synchronous digital hierarchy (Data transmission) |
| ISBN |
1-282-36270-4
9786612362705 0-470-48044-0 0-470-48043-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
PREFACE -- 1. INTRODUCTION TO OPTICAL TRANSPORT -- 1.1 History -- 1.2 Conventions -- 1.3 Standard Documents from Different SDOs -- 2. NETWORK ARCHITECTURES: THE STRUCTURE OF THE NETWORK -- 2.1 Network Topology -- 2.2 Network Functional Model -- 3. FRAMES AND STRUCTURES: TRANSPORT IN CONTAINERS -- 3.1 SDH Frames and Structures -- 3.2 OTN Frames and Structures -- 3.3 PDH Frame Structures -- 3.4 PTN Frame Structures -- 4. NETWORK MODELING: LAYERS AND ATOMIC FUNCTIONS. -- 4.1 The Synchronous Digital Hierarchy SDH -- 4.2 The SDH Higher Order Path (Sn) Layer -- 4.3 The SDH Lower Order Path (Sm) Layer -- 4.4 The SDH Multiplex Section (MSn) Layer -- 4.5 The SDH Regenerator Section (RSn) Layer -- 4.6 The SDH Optical Section (OSn) Layer -- 4.7 The SDH Electrical Section (ES1) Layer -- 4.8 The Layers Below the SDH OSn and ES1 Layer -- 4.9 The Optical Transport Network OTN -- 4.10 The OTN Optical Channel Data Unit Layer (ODUk) -- 4.11 The OTN Optical Channel Transport Unit Layer (OTUk) -- 4.12 The OTN Optical Channel Layer (OCh) -- 4.13 The OTN Optical Multiplex Section Layer (OMSn) -- 4.14 The OTN Optical Transmission Section Layer (OTSn) -- 4.15 The OTN Optical Physical Section Layer (OPS) -- 5. PACKET TRANSPORT NETWORK MODELING: EXTENDING THE MODEL TO NGN -- 5.1 The Generic PTN Layer -- 5.2 The PTN-Specifi c OAM Traffic Units -- 6. FREQUENCY JUSTIFICATION: POINTERS AND STUFFING -- 6.1 Pointer Processing -- 6.2 Bit Stuffing -- 6.3 Positive and Negative Justification -- 7. PROTECTION MECHANISMS: IMPROVE AVAILABILITY -- 7.1 Availability -- 7.2 Protection Architectures -- 7.3 Protection Classes -- 8. MAPPING METHODOLOGIES: FITTING THE PAYLOAD IN THE CONTAINER -- 8.1 SDH/SONET--Container C-n Mapping -- 8.2 OTN--Container OPUk Mapping -- 8.3 GFP Mapping -- 9. CONCATENATION: TO GROW AND PROVIDE FLEXIBILITY. -- 9.1 Contiguous Concatenation (CCAT) -- 9.2 Virtual Concatenation (VCAT) -- 9.3 Link Capacity Adjustment Scheme (LCAS) -- 10. SDH VS. SONET OVERHEAD PROCESSING: COMMONALITIES AND DIFFERENCES.
ABBREVIATIONS -- REFERENCES -- BIBLIOGRAPHY -- INDEX. |
| Record Nr. | UNISA-996204765303316 |
|
Helvoort Huub van
|
||
| Piscataway, New Jersey : , : IEEE Press, , c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
The ComSoc guide to next generation optical transport : SDH/SONET/OTN / / Huub van Helvoort
| The ComSoc guide to next generation optical transport : SDH/SONET/OTN / / Huub van Helvoort |
| Autore | Helvoort Huub van |
| Pubbl/distr/stampa | Piscataway, New Jersey : , : IEEE Press, , c2009 |
| Descrizione fisica | 1 online resource (225 p.) |
| Disciplina |
621.382
621.3827 |
| Collana | The ComSoc guides to communications technologies |
| Soggetto topico |
Optical communications
SONET (Data transmission) Synchronous digital hierarchy (Data transmission) |
| ISBN |
1-282-36270-4
9786612362705 0-470-48044-0 0-470-48043-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
PREFACE -- 1. INTRODUCTION TO OPTICAL TRANSPORT -- 1.1 History -- 1.2 Conventions -- 1.3 Standard Documents from Different SDOs -- 2. NETWORK ARCHITECTURES: THE STRUCTURE OF THE NETWORK -- 2.1 Network Topology -- 2.2 Network Functional Model -- 3. FRAMES AND STRUCTURES: TRANSPORT IN CONTAINERS -- 3.1 SDH Frames and Structures -- 3.2 OTN Frames and Structures -- 3.3 PDH Frame Structures -- 3.4 PTN Frame Structures -- 4. NETWORK MODELING: LAYERS AND ATOMIC FUNCTIONS. -- 4.1 The Synchronous Digital Hierarchy SDH -- 4.2 The SDH Higher Order Path (Sn) Layer -- 4.3 The SDH Lower Order Path (Sm) Layer -- 4.4 The SDH Multiplex Section (MSn) Layer -- 4.5 The SDH Regenerator Section (RSn) Layer -- 4.6 The SDH Optical Section (OSn) Layer -- 4.7 The SDH Electrical Section (ES1) Layer -- 4.8 The Layers Below the SDH OSn and ES1 Layer -- 4.9 The Optical Transport Network OTN -- 4.10 The OTN Optical Channel Data Unit Layer (ODUk) -- 4.11 The OTN Optical Channel Transport Unit Layer (OTUk) -- 4.12 The OTN Optical Channel Layer (OCh) -- 4.13 The OTN Optical Multiplex Section Layer (OMSn) -- 4.14 The OTN Optical Transmission Section Layer (OTSn) -- 4.15 The OTN Optical Physical Section Layer (OPS) -- 5. PACKET TRANSPORT NETWORK MODELING: EXTENDING THE MODEL TO NGN -- 5.1 The Generic PTN Layer -- 5.2 The PTN-Specifi c OAM Traffic Units -- 6. FREQUENCY JUSTIFICATION: POINTERS AND STUFFING -- 6.1 Pointer Processing -- 6.2 Bit Stuffing -- 6.3 Positive and Negative Justification -- 7. PROTECTION MECHANISMS: IMPROVE AVAILABILITY -- 7.1 Availability -- 7.2 Protection Architectures -- 7.3 Protection Classes -- 8. MAPPING METHODOLOGIES: FITTING THE PAYLOAD IN THE CONTAINER -- 8.1 SDH/SONET--Container C-n Mapping -- 8.2 OTN--Container OPUk Mapping -- 8.3 GFP Mapping -- 9. CONCATENATION: TO GROW AND PROVIDE FLEXIBILITY. -- 9.1 Contiguous Concatenation (CCAT) -- 9.2 Virtual Concatenation (VCAT) -- 9.3 Link Capacity Adjustment Scheme (LCAS) -- 10. SDH VS. SONET OVERHEAD PROCESSING: COMMONALITIES AND DIFFERENCES.
ABBREVIATIONS -- REFERENCES -- BIBLIOGRAPHY -- INDEX. |
| Record Nr. | UNINA-9910830605403321 |
|
Helvoort Huub van
|
||
| Piscataway, New Jersey : , : IEEE Press, , c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The ComSoc guide to next generation optical transport : SDH/SONET/OTN / / Huub van Helvoort
| The ComSoc guide to next generation optical transport : SDH/SONET/OTN / / Huub van Helvoort |
| Autore | Helvoort Huub van |
| Pubbl/distr/stampa | Piscataway, NJ, : IEEE Press |
| Descrizione fisica | 1 online resource (225 p.) |
| Disciplina |
621.382
621.3827 |
| Collana | The ComSoc guides to communications technologies |
| Soggetto topico |
Optical communications
SONET (Data transmission) Synchronous digital hierarchy (Data transmission) |
| ISBN |
1-282-36270-4
9786612362705 0-470-48044-0 0-470-48043-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
PREFACE -- 1. INTRODUCTION TO OPTICAL TRANSPORT -- 1.1 History -- 1.2 Conventions -- 1.3 Standard Documents from Different SDOs -- 2. NETWORK ARCHITECTURES: THE STRUCTURE OF THE NETWORK -- 2.1 Network Topology -- 2.2 Network Functional Model -- 3. FRAMES AND STRUCTURES: TRANSPORT IN CONTAINERS -- 3.1 SDH Frames and Structures -- 3.2 OTN Frames and Structures -- 3.3 PDH Frame Structures -- 3.4 PTN Frame Structures -- 4. NETWORK MODELING: LAYERS AND ATOMIC FUNCTIONS. -- 4.1 The Synchronous Digital Hierarchy SDH -- 4.2 The SDH Higher Order Path (Sn) Layer -- 4.3 The SDH Lower Order Path (Sm) Layer -- 4.4 The SDH Multiplex Section (MSn) Layer -- 4.5 The SDH Regenerator Section (RSn) Layer -- 4.6 The SDH Optical Section (OSn) Layer -- 4.7 The SDH Electrical Section (ES1) Layer -- 4.8 The Layers Below the SDH OSn and ES1 Layer -- 4.9 The Optical Transport Network OTN -- 4.10 The OTN Optical Channel Data Unit Layer (ODUk) -- 4.11 The OTN Optical Channel Transport Unit Layer (OTUk) -- 4.12 The OTN Optical Channel Layer (OCh) -- 4.13 The OTN Optical Multiplex Section Layer (OMSn) -- 4.14 The OTN Optical Transmission Section Layer (OTSn) -- 4.15 The OTN Optical Physical Section Layer (OPS) -- 5. PACKET TRANSPORT NETWORK MODELING: EXTENDING THE MODEL TO NGN -- 5.1 The Generic PTN Layer -- 5.2 The PTN-Specifi c OAM Traffic Units -- 6. FREQUENCY JUSTIFICATION: POINTERS AND STUFFING -- 6.1 Pointer Processing -- 6.2 Bit Stuffing -- 6.3 Positive and Negative Justification -- 7. PROTECTION MECHANISMS: IMPROVE AVAILABILITY -- 7.1 Availability -- 7.2 Protection Architectures -- 7.3 Protection Classes -- 8. MAPPING METHODOLOGIES: FITTING THE PAYLOAD IN THE CONTAINER -- 8.1 SDH/SONET--Container C-n Mapping -- 8.2 OTN--Container OPUk Mapping -- 8.3 GFP Mapping -- 9. CONCATENATION: TO GROW AND PROVIDE FLEXIBILITY. -- 9.1 Contiguous Concatenation (CCAT) -- 9.2 Virtual Concatenation (VCAT) -- 9.3 Link Capacity Adjustment Scheme (LCAS) -- 10. SDH VS. SONET OVERHEAD PROCESSING: COMMONALITIES AND DIFFERENCES.
ABBREVIATIONS -- REFERENCES -- BIBLIOGRAPHY -- INDEX. |
| Record Nr. | UNINA-9910877580803321 |
|
Helvoort Huub van
|
||
| Piscataway, NJ, : IEEE Press | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Next generation SDH/SONET [[electronic resource] ] : evolution or revolution? / / Huub van Helvoort
| Next generation SDH/SONET [[electronic resource] ] : evolution or revolution? / / Huub van Helvoort |
| Autore | Helvoort Huub van |
| Pubbl/distr/stampa | Chichester, : Wiley, c2005 |
| Descrizione fisica | 1 online resource (256 p.) |
| Disciplina |
621.3821
621.38216 |
| Soggetto topico |
Synchronous digital hierarchy (Data transmission)
SONET (Data transmission) |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-280-24180-2
9786610241804 0-470-09122-3 0-470-09121-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Next Generation SDH/SONET; Contents; Preface; Acknowledgements; 1 Introduction; 1.1 History; 1.2 Conventions; 2 Concatenation; 2.1 Payload container concatenation; 2.2 Contiguous concatenation; 2.2.1 CCAT of VC-4 and STS-1 SPE; 2.2.2 CCAT of VC-2; 2.3 Virtual concatenation; 2.3.1 Payload distribution and reconstruction; 2.3.2 VCAT of VC-n; 2.3.3 VCAT of VC-m; 2.3.4 VCAT of PDH; 2.4 Applications of concatenation; 2.4.1 Contiguous to virtual to contiguous conversion; 2.4.2 VCAT and data transport; 2.4.3 VCAT and OTN signal transport; 3 Link capacity adjustment scheme; 3.1 Introduction
3.2 LCAS for virtual concatenation3.2.1 Methodology; 3.2.2 Control packet; 3.3 Changing the size of a virtual concatenated group; 3.3.1 Planned addition of member(s); 3.3.2 Planned deletion of member(s); 3.3.3 Temporary removal of member; 3.4 LCAS to non-LCAS interworking; 3.4.1 LCAS Source and non-LCAS Sink; 3.4.2 Non-LCAS Source and LCAS Sink; 3.5 LCAS control packet details; 3.5.1 The higher order VLI; 3.5.2 The lower order VLI; 3.5.3 The OTN VLI; 3.5.4 The PDH VLI; 4 The LCAS protocol; 4.1 Introduction; 4.1.1 Asymmetric connections; 4.1.2 Symmetric connections 4.1.3 Unidirectional operation4.2 The size of a VCG; 4.3 The LCAS protocol described using SDL; 4.3.1 Used SDL symbols; 4.3.2 LCAS state machines; 4.3.3 LCAS events used in the SDL diagrams; 4.3.4 The SDL diagrams; 5 LCAS time sequence diagrams; 5.1 Introduction; 5.2 Provisioning a member; 5.3 VCG state transition examples; 5.3.1 An increase of the bandwidth of a VCG; 5.3.2 A decrease of the bandwidth of a VCG; 5.3.3 Decrease of bandwidth due to a network problem; 6 Generic framing procedure; 6.1 Introduction; 6.2 Common aspects of GFP for octet-aligned payloads 6.2.1 Basic signal structure for GFP client frames6.2.2 GFP client frames; 6.2.3 GFP control frames; 6.2.4 GFP frame-level functions; 6.3 Client specific aspects for frame-mapped GFP; 6.3.1 Ethernet MAC payload; 6.3.2 IP/PPP payload; 6.3.3 RPR payload; 6.3.4 Fibre Channel payload via FC-BBW; 6.3.5 Direct mapping of MPLS; 6.3.6 Error handling in frame-mapped GFP; 6.4 Client specific aspects for transparent-mapped GFP; 6.4.1 Common aspects of GFP-T; 6.4.2 Client-specific signal fail aspects; 6.5 Server specific aspects of GFP; 6.6 GFP PDU examples; 6.6.1 GFP-F PDU; 6.6.2 GFP-T PDU 6.6.3 GPT CMF PDU7 Functional models for LCAS and GFP; 7.1 Virtual concatenation functions; 7.1.1 Sn-Xv Trail Termination function; 7.1.2 Sn-Xv/Sn-X adaptation function; 7.1.3 Sn-X Trail Termination function; 7.1.4 Sn Trail Termination function; 7.2 S4-Xc to S4-Xc interworking function; 7.3 LCAS-capable VCAT functions; 7.3.1 Sn-Xv-L Layer Trail Termination function; 7.3.2 Sn-Xv/Sn-X-L adaptation function; 7.3.3 Sn-X-L Trail Termination function; 7.3.4 Sn Trail Termination function; 7.3.5 Sn-X-L to Client adaptation function; 7.4 GFP adaptation functions 7.4.1 Source side GFP adaptation processes |
| Record Nr. | UNINA-9910143699303321 |
|
Helvoort Huub van
|
||
| Chichester, : Wiley, c2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Next generation SDH/SONET [[electronic resource] ] : evolution or revolution? / / Huub van Helvoort
| Next generation SDH/SONET [[electronic resource] ] : evolution or revolution? / / Huub van Helvoort |
| Autore | Helvoort Huub van |
| Pubbl/distr/stampa | Chichester, : Wiley, c2005 |
| Descrizione fisica | 1 online resource (256 p.) |
| Disciplina |
621.3821
621.38216 |
| Soggetto topico |
Synchronous digital hierarchy (Data transmission)
SONET (Data transmission) |
| ISBN |
1-280-24180-2
9786610241804 0-470-09122-3 0-470-09121-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Next Generation SDH/SONET; Contents; Preface; Acknowledgements; 1 Introduction; 1.1 History; 1.2 Conventions; 2 Concatenation; 2.1 Payload container concatenation; 2.2 Contiguous concatenation; 2.2.1 CCAT of VC-4 and STS-1 SPE; 2.2.2 CCAT of VC-2; 2.3 Virtual concatenation; 2.3.1 Payload distribution and reconstruction; 2.3.2 VCAT of VC-n; 2.3.3 VCAT of VC-m; 2.3.4 VCAT of PDH; 2.4 Applications of concatenation; 2.4.1 Contiguous to virtual to contiguous conversion; 2.4.2 VCAT and data transport; 2.4.3 VCAT and OTN signal transport; 3 Link capacity adjustment scheme; 3.1 Introduction
3.2 LCAS for virtual concatenation3.2.1 Methodology; 3.2.2 Control packet; 3.3 Changing the size of a virtual concatenated group; 3.3.1 Planned addition of member(s); 3.3.2 Planned deletion of member(s); 3.3.3 Temporary removal of member; 3.4 LCAS to non-LCAS interworking; 3.4.1 LCAS Source and non-LCAS Sink; 3.4.2 Non-LCAS Source and LCAS Sink; 3.5 LCAS control packet details; 3.5.1 The higher order VLI; 3.5.2 The lower order VLI; 3.5.3 The OTN VLI; 3.5.4 The PDH VLI; 4 The LCAS protocol; 4.1 Introduction; 4.1.1 Asymmetric connections; 4.1.2 Symmetric connections 4.1.3 Unidirectional operation4.2 The size of a VCG; 4.3 The LCAS protocol described using SDL; 4.3.1 Used SDL symbols; 4.3.2 LCAS state machines; 4.3.3 LCAS events used in the SDL diagrams; 4.3.4 The SDL diagrams; 5 LCAS time sequence diagrams; 5.1 Introduction; 5.2 Provisioning a member; 5.3 VCG state transition examples; 5.3.1 An increase of the bandwidth of a VCG; 5.3.2 A decrease of the bandwidth of a VCG; 5.3.3 Decrease of bandwidth due to a network problem; 6 Generic framing procedure; 6.1 Introduction; 6.2 Common aspects of GFP for octet-aligned payloads 6.2.1 Basic signal structure for GFP client frames6.2.2 GFP client frames; 6.2.3 GFP control frames; 6.2.4 GFP frame-level functions; 6.3 Client specific aspects for frame-mapped GFP; 6.3.1 Ethernet MAC payload; 6.3.2 IP/PPP payload; 6.3.3 RPR payload; 6.3.4 Fibre Channel payload via FC-BBW; 6.3.5 Direct mapping of MPLS; 6.3.6 Error handling in frame-mapped GFP; 6.4 Client specific aspects for transparent-mapped GFP; 6.4.1 Common aspects of GFP-T; 6.4.2 Client-specific signal fail aspects; 6.5 Server specific aspects of GFP; 6.6 GFP PDU examples; 6.6.1 GFP-F PDU; 6.6.2 GFP-T PDU 6.6.3 GPT CMF PDU7 Functional models for LCAS and GFP; 7.1 Virtual concatenation functions; 7.1.1 Sn-Xv Trail Termination function; 7.1.2 Sn-Xv/Sn-X adaptation function; 7.1.3 Sn-X Trail Termination function; 7.1.4 Sn Trail Termination function; 7.2 S4-Xc to S4-Xc interworking function; 7.3 LCAS-capable VCAT functions; 7.3.1 Sn-Xv-L Layer Trail Termination function; 7.3.2 Sn-Xv/Sn-X-L adaptation function; 7.3.3 Sn-X-L Trail Termination function; 7.3.4 Sn Trail Termination function; 7.3.5 Sn-X-L to Client adaptation function; 7.4 GFP adaptation functions 7.4.1 Source side GFP adaptation processes |
| Record Nr. | UNINA-9910830640703321 |
|
Helvoort Huub van
|
||
| Chichester, : Wiley, c2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Next generation SDH/SONET : evolution or revolution? / / Huub van Helvoort
| Next generation SDH/SONET : evolution or revolution? / / Huub van Helvoort |
| Autore | Helvoort Huub van |
| Pubbl/distr/stampa | Chichester, : Wiley, c2005 |
| Descrizione fisica | 1 online resource (256 p.) |
| Disciplina |
621.3821
621.38216 |
| Soggetto topico |
Synchronous digital hierarchy (Data transmission)
SONET (Data transmission) |
| ISBN |
1-280-24180-2
9786610241804 0-470-09122-3 0-470-09121-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Next Generation SDH/SONET; Contents; Preface; Acknowledgements; 1 Introduction; 1.1 History; 1.2 Conventions; 2 Concatenation; 2.1 Payload container concatenation; 2.2 Contiguous concatenation; 2.2.1 CCAT of VC-4 and STS-1 SPE; 2.2.2 CCAT of VC-2; 2.3 Virtual concatenation; 2.3.1 Payload distribution and reconstruction; 2.3.2 VCAT of VC-n; 2.3.3 VCAT of VC-m; 2.3.4 VCAT of PDH; 2.4 Applications of concatenation; 2.4.1 Contiguous to virtual to contiguous conversion; 2.4.2 VCAT and data transport; 2.4.3 VCAT and OTN signal transport; 3 Link capacity adjustment scheme; 3.1 Introduction
3.2 LCAS for virtual concatenation3.2.1 Methodology; 3.2.2 Control packet; 3.3 Changing the size of a virtual concatenated group; 3.3.1 Planned addition of member(s); 3.3.2 Planned deletion of member(s); 3.3.3 Temporary removal of member; 3.4 LCAS to non-LCAS interworking; 3.4.1 LCAS Source and non-LCAS Sink; 3.4.2 Non-LCAS Source and LCAS Sink; 3.5 LCAS control packet details; 3.5.1 The higher order VLI; 3.5.2 The lower order VLI; 3.5.3 The OTN VLI; 3.5.4 The PDH VLI; 4 The LCAS protocol; 4.1 Introduction; 4.1.1 Asymmetric connections; 4.1.2 Symmetric connections 4.1.3 Unidirectional operation4.2 The size of a VCG; 4.3 The LCAS protocol described using SDL; 4.3.1 Used SDL symbols; 4.3.2 LCAS state machines; 4.3.3 LCAS events used in the SDL diagrams; 4.3.4 The SDL diagrams; 5 LCAS time sequence diagrams; 5.1 Introduction; 5.2 Provisioning a member; 5.3 VCG state transition examples; 5.3.1 An increase of the bandwidth of a VCG; 5.3.2 A decrease of the bandwidth of a VCG; 5.3.3 Decrease of bandwidth due to a network problem; 6 Generic framing procedure; 6.1 Introduction; 6.2 Common aspects of GFP for octet-aligned payloads 6.2.1 Basic signal structure for GFP client frames6.2.2 GFP client frames; 6.2.3 GFP control frames; 6.2.4 GFP frame-level functions; 6.3 Client specific aspects for frame-mapped GFP; 6.3.1 Ethernet MAC payload; 6.3.2 IP/PPP payload; 6.3.3 RPR payload; 6.3.4 Fibre Channel payload via FC-BBW; 6.3.5 Direct mapping of MPLS; 6.3.6 Error handling in frame-mapped GFP; 6.4 Client specific aspects for transparent-mapped GFP; 6.4.1 Common aspects of GFP-T; 6.4.2 Client-specific signal fail aspects; 6.5 Server specific aspects of GFP; 6.6 GFP PDU examples; 6.6.1 GFP-F PDU; 6.6.2 GFP-T PDU 6.6.3 GPT CMF PDU7 Functional models for LCAS and GFP; 7.1 Virtual concatenation functions; 7.1.1 Sn-Xv Trail Termination function; 7.1.2 Sn-Xv/Sn-X adaptation function; 7.1.3 Sn-X Trail Termination function; 7.1.4 Sn Trail Termination function; 7.2 S4-Xc to S4-Xc interworking function; 7.3 LCAS-capable VCAT functions; 7.3.1 Sn-Xv-L Layer Trail Termination function; 7.3.2 Sn-Xv/Sn-X-L adaptation function; 7.3.3 Sn-X-L Trail Termination function; 7.3.4 Sn Trail Termination function; 7.3.5 Sn-X-L to Client adaptation function; 7.4 GFP adaptation functions 7.4.1 Source side GFP adaptation processes |
| Record Nr. | UNINA-9910877319703321 |
|
Helvoort Huub van
|
||
| Chichester, : Wiley, c2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
SDH/SONET explained in functional models [[electronic resource] ] : modeling the optical transport network / / Huub van Helvoort
| SDH/SONET explained in functional models [[electronic resource] ] : modeling the optical transport network / / Huub van Helvoort |
| Autore | Helvoort Huub van |
| Pubbl/distr/stampa | Chichester, : Wiley, c2005 |
| Descrizione fisica | 1 online resource (302 p.) |
| Disciplina | 621.38216 |
| Soggetto topico |
Synchronous digital hierarchy (Data transmission)
SONET (Data transmission) |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-280-24280-9
9786610242801 0-470-09125-8 0-470-09124-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
SDH/SONET Explained in Functional Models; Contents; Preface; Acknowledgements; Abbreviations; 1 Introduction; 1.1 History; 1.2 Justification; 1.3 Remarks on the concept; 1.4 Standards structure; 2 Functional modeling; 2.1 Functional architecture of transport networks; 2.2 Functional model requirements; 2.3 Functional model basic structure; 2.3.1 Architectural components; 2.3.2 Topological components; 2.4 Functional model detailed structure; 2.4.1 Transport entities; 2.4.2 Transport processing functions; 2.4.3 Reference points; 2.4.4 Components comparison; 2.5 Client/server relationship
2.5.1 Multiplexing2.5.2 Inverse multiplexing; 2.6 Layer network interworking; 2.7 Linking the functional model and the information model; 2.8 Application of concepts to network topologies and structures; 2.8.1 PDH supported on SDH layer networks; 2.8.2 Inverse multiplexing transport; 3 Partitioning and layering; 3.1 Layering concept; 3.2 Partitioning concept; 3.2.1 Sub-network partitioning; 3.2.2 Flow domain partitioning; 3.2.3 Link partitioning; 3.2.4 Access group partitioning; 3.3 Concept applications; 3.3.1 Application of the layering concept; 3.3.2 Application of the partitioning concept 4 Expansion and reduction4.1 Expansion of layer networks; 4.1.1 Expansion of the path layer network; 4.1.2 Expansion of the transmission media layer; 4.1.3 Expansion of specific layer networks into sublayers; 4.2 General principles of expansion of layers; 4.2.1 Adaptation expansion; 4.2.2 Trail termination expansion; 4.2.3 Connection point expansion; 4.3 Reduction of detail; 5 Adaptation functions; 5.1 Generic adaptation function; 5.2 Adaptation function examples; 5.2.1 The Sn/Sm_A function; 5.2.2 The OCh/RSn_A function; 5.2.3 The LCAS capable Sn-X-L/ETH_A function 5.2.4 GFP mapping in the Sn-X/_A function6 Trail termination functions; 6.1 Generic trail termination function; 6.2 Trail termination function examples; 6.2.1 The Sn_TT function; 6.2.2 The OCh_TT function; 6.2.3 The ETH_FT function; 7 Connection functions; 7.1 Generic connection function; 7.2 Connection function example; 7.2.1 VC-n layer connection function Sn_C; 7.2.2 ETH flow domain; 7.3 Connection matrix examples; 7.3.1 Connection matrix example for full connectivity; 7.3.2 Connection matrix example for two groups; 7.3.3 Connection matrix example for three groups 8 Connection supervision8.1 Quality of Service; 8.2 Connection monitoring methods; 8.2.1 Inherent monitoring; 8.2.2 Non-intrusive monitoring; 8.2.3 Intrusive monitoring; 8.2.4 Sublayer monitoring; 8.3 Connection monitoring applications; 8.3.1 Monitoring of unused connections; 8.3.2 Tandem connection monitoring; 9 Protection models; 9.1 Introduction; 9.2 Protection; 9.2.1 Trail protection; 9.2.2 Sub-network connection protection; 10 Compound functional models and their decomposition; 10.1 LCAS disabled VCAT functions; 10.1.1 Sn-Xv trail termination function 10.1.2 Sn-Xv/Sn-X adaptation function |
| Record Nr. | UNINA-9910143700003321 |
|
Helvoort Huub van
|
||
| Chichester, : Wiley, c2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
SDH/SONET explained in functional models [[electronic resource] ] : modeling the optical transport network / / Huub van Helvoort
| SDH/SONET explained in functional models [[electronic resource] ] : modeling the optical transport network / / Huub van Helvoort |
| Autore | Helvoort Huub van |
| Pubbl/distr/stampa | Chichester, : Wiley, c2005 |
| Descrizione fisica | 1 online resource (302 p.) |
| Disciplina | 621.38216 |
| Soggetto topico |
Synchronous digital hierarchy (Data transmission)
SONET (Data transmission) |
| ISBN |
1-280-24280-9
9786610242801 0-470-09125-8 0-470-09124-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
SDH/SONET Explained in Functional Models; Contents; Preface; Acknowledgements; Abbreviations; 1 Introduction; 1.1 History; 1.2 Justification; 1.3 Remarks on the concept; 1.4 Standards structure; 2 Functional modeling; 2.1 Functional architecture of transport networks; 2.2 Functional model requirements; 2.3 Functional model basic structure; 2.3.1 Architectural components; 2.3.2 Topological components; 2.4 Functional model detailed structure; 2.4.1 Transport entities; 2.4.2 Transport processing functions; 2.4.3 Reference points; 2.4.4 Components comparison; 2.5 Client/server relationship
2.5.1 Multiplexing2.5.2 Inverse multiplexing; 2.6 Layer network interworking; 2.7 Linking the functional model and the information model; 2.8 Application of concepts to network topologies and structures; 2.8.1 PDH supported on SDH layer networks; 2.8.2 Inverse multiplexing transport; 3 Partitioning and layering; 3.1 Layering concept; 3.2 Partitioning concept; 3.2.1 Sub-network partitioning; 3.2.2 Flow domain partitioning; 3.2.3 Link partitioning; 3.2.4 Access group partitioning; 3.3 Concept applications; 3.3.1 Application of the layering concept; 3.3.2 Application of the partitioning concept 4 Expansion and reduction4.1 Expansion of layer networks; 4.1.1 Expansion of the path layer network; 4.1.2 Expansion of the transmission media layer; 4.1.3 Expansion of specific layer networks into sublayers; 4.2 General principles of expansion of layers; 4.2.1 Adaptation expansion; 4.2.2 Trail termination expansion; 4.2.3 Connection point expansion; 4.3 Reduction of detail; 5 Adaptation functions; 5.1 Generic adaptation function; 5.2 Adaptation function examples; 5.2.1 The Sn/Sm_A function; 5.2.2 The OCh/RSn_A function; 5.2.3 The LCAS capable Sn-X-L/ETH_A function 5.2.4 GFP mapping in the Sn-X/_A function6 Trail termination functions; 6.1 Generic trail termination function; 6.2 Trail termination function examples; 6.2.1 The Sn_TT function; 6.2.2 The OCh_TT function; 6.2.3 The ETH_FT function; 7 Connection functions; 7.1 Generic connection function; 7.2 Connection function example; 7.2.1 VC-n layer connection function Sn_C; 7.2.2 ETH flow domain; 7.3 Connection matrix examples; 7.3.1 Connection matrix example for full connectivity; 7.3.2 Connection matrix example for two groups; 7.3.3 Connection matrix example for three groups 8 Connection supervision8.1 Quality of Service; 8.2 Connection monitoring methods; 8.2.1 Inherent monitoring; 8.2.2 Non-intrusive monitoring; 8.2.3 Intrusive monitoring; 8.2.4 Sublayer monitoring; 8.3 Connection monitoring applications; 8.3.1 Monitoring of unused connections; 8.3.2 Tandem connection monitoring; 9 Protection models; 9.1 Introduction; 9.2 Protection; 9.2.1 Trail protection; 9.2.2 Sub-network connection protection; 10 Compound functional models and their decomposition; 10.1 LCAS disabled VCAT functions; 10.1.1 Sn-Xv trail termination function 10.1.2 Sn-Xv/Sn-X adaptation function |
| Record Nr. | UNINA-9910830872603321 |
|
Helvoort Huub van
|
||
| Chichester, : Wiley, c2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
SDH/SONET explained in functional models : modeling the optical transport network / / Huub van Helvoort
| SDH/SONET explained in functional models : modeling the optical transport network / / Huub van Helvoort |
| Autore | Helvoort Huub van |
| Pubbl/distr/stampa | Chichester, : Wiley, c2005 |
| Descrizione fisica | 1 online resource (302 p.) |
| Disciplina | 621.38216 |
| Soggetto topico |
Synchronous digital hierarchy (Data transmission)
SONET (Data transmission) |
| ISBN |
1-280-24280-9
9786610242801 0-470-09125-8 0-470-09124-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
SDH/SONET Explained in Functional Models; Contents; Preface; Acknowledgements; Abbreviations; 1 Introduction; 1.1 History; 1.2 Justification; 1.3 Remarks on the concept; 1.4 Standards structure; 2 Functional modeling; 2.1 Functional architecture of transport networks; 2.2 Functional model requirements; 2.3 Functional model basic structure; 2.3.1 Architectural components; 2.3.2 Topological components; 2.4 Functional model detailed structure; 2.4.1 Transport entities; 2.4.2 Transport processing functions; 2.4.3 Reference points; 2.4.4 Components comparison; 2.5 Client/server relationship
2.5.1 Multiplexing2.5.2 Inverse multiplexing; 2.6 Layer network interworking; 2.7 Linking the functional model and the information model; 2.8 Application of concepts to network topologies and structures; 2.8.1 PDH supported on SDH layer networks; 2.8.2 Inverse multiplexing transport; 3 Partitioning and layering; 3.1 Layering concept; 3.2 Partitioning concept; 3.2.1 Sub-network partitioning; 3.2.2 Flow domain partitioning; 3.2.3 Link partitioning; 3.2.4 Access group partitioning; 3.3 Concept applications; 3.3.1 Application of the layering concept; 3.3.2 Application of the partitioning concept 4 Expansion and reduction4.1 Expansion of layer networks; 4.1.1 Expansion of the path layer network; 4.1.2 Expansion of the transmission media layer; 4.1.3 Expansion of specific layer networks into sublayers; 4.2 General principles of expansion of layers; 4.2.1 Adaptation expansion; 4.2.2 Trail termination expansion; 4.2.3 Connection point expansion; 4.3 Reduction of detail; 5 Adaptation functions; 5.1 Generic adaptation function; 5.2 Adaptation function examples; 5.2.1 The Sn/Sm_A function; 5.2.2 The OCh/RSn_A function; 5.2.3 The LCAS capable Sn-X-L/ETH_A function 5.2.4 GFP mapping in the Sn-X/_A function6 Trail termination functions; 6.1 Generic trail termination function; 6.2 Trail termination function examples; 6.2.1 The Sn_TT function; 6.2.2 The OCh_TT function; 6.2.3 The ETH_FT function; 7 Connection functions; 7.1 Generic connection function; 7.2 Connection function example; 7.2.1 VC-n layer connection function Sn_C; 7.2.2 ETH flow domain; 7.3 Connection matrix examples; 7.3.1 Connection matrix example for full connectivity; 7.3.2 Connection matrix example for two groups; 7.3.3 Connection matrix example for three groups 8 Connection supervision8.1 Quality of Service; 8.2 Connection monitoring methods; 8.2.1 Inherent monitoring; 8.2.2 Non-intrusive monitoring; 8.2.3 Intrusive monitoring; 8.2.4 Sublayer monitoring; 8.3 Connection monitoring applications; 8.3.1 Monitoring of unused connections; 8.3.2 Tandem connection monitoring; 9 Protection models; 9.1 Introduction; 9.2 Protection; 9.2.1 Trail protection; 9.2.2 Sub-network connection protection; 10 Compound functional models and their decomposition; 10.1 LCAS disabled VCAT functions; 10.1.1 Sn-Xv trail termination function 10.1.2 Sn-Xv/Sn-X adaptation function |
| Record Nr. | UNINA-9910877787103321 |
|
Helvoort Huub van
|
||
| Chichester, : Wiley, c2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||