Sourcebook of ATM and IP internetworking / / Khalid Ahmad |
Autore | Ahmad Khalid |
Pubbl/distr/stampa | Piscataway, New Jersey : , : IEEE Press, , c2002 |
Descrizione fisica | 1 online resource (486 p.) |
Disciplina | 004.62 |
Collana | IEEE Press series on network management |
Soggetto topico |
Asynchronous transfer mode
Internetworking (Telecommunication) |
ISBN |
1-280-54205-5
9786610542055 0-471-66094-9 0-471-72286-3 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface -- 1 Introduction -- 2 ATM Principles and Basic Definitions -- 2.1 The B-ISDN Protocol Reference Model (PRM) -- 2.2 Transfer Plane Functions and ATM Process Overview -- 2.3 Network Models and Reference Points -- 3 Functions of the ATM Layer -- 3.1 Virtual Path and Virtual Channel Identifiers -- 3.2 Relation between VPC, VCC and VPL, VCL -- 3.3 Preassigned Header Values -- 3.4 The Pay load Type Field -- 3.5 The Cell Loss Priority (CLP) Field -- 3.6 Generic Flow Control (GFC) Function -- 3.7 Primitives and Service Access Points -- 4 Functions of the Physical Layer -- 4.1 Frame-Based and Cell-Based Physical Interfaces -- 4.2 The Cell-Based Physical Interface -- 4.3 The Frame-Based Physical Interface -- 4.4 Cell Delineation Using the HEC -- 5 ATM Traffic Control -- 5.1 The Need for Traffic Control in ATM -- 5.2 Traffic Control Functions Overview -- 5.3 Reference Configuration and Timescales for Traffic Control -- 5.4 Traffic Contracts, Descriptors, and Parameters -- 5.5 The Peak Cell Rate (PCR) -- 5.6 Cell Delay Variation (CDV) -- 5.7 Sustainable Cell Rate (SCR) and Burst Tolerance -- 5.8 The Generic Cell Rate Algorithm (GCRA) and the "Leaky Bucket" Algorithm -- 5.9 ATM Transfer Capabilities (ATC) -- 5.10 Deterministic Bit Rate (DBR) Transfer Capability -- 5.11 Statistical Bit Rate (SBR) Transfer Capability -- 5.12 Available Bit Rate (ABR) Transfer Capability -- 5.13 ABR RM Cell Structure and Parameters -- 5.14 ATM Block Transfer (ABT) Capability -- 5.15 Unspecified Bit Rate (UBR) and Guaranteed Frame Rate (GFR) -- 5.16 Credit-Based Flow Control Capabilities -- 5.17 Generic UPC/NPC and CAC Requirements -- 5.18 General Comments on ATM Traffic Control -- 6 ATM Signaling -- 6.1 B-ISDN Signaling Principles -- 6.2 ATM Signaling Protocol Architectures -- 6.3 Metasignaling -- 6.4 ATM Connection Types -- 6.5 The UNI Signaling Message Set -- 6.6 UNI Information Elements (IEs) -- 6.7 Examples of Message Flows at the UNI -- 6.8 Point-to-Multipoint Connections -- 6.9 The NNI Signaling Message Set-B-ISUP.
6.10 Broadband Inter Carrier Interface (B-ICI) -- 6.11 Message Transfer Part Level 3 (MTP 3) Functionality -- 6.12 ATM Addressing and B-ISUP Routing -- 7 Private NNI (PNNI) Signaling and Routing -- 7.1 Introduction -- 7.2 Basic PNNI Signaling and Routing Concepts -- 7.3 PNNI Signaling Protocols -- 7.4 Source Routing in PNNI Signaling -- 7.5 PNNI Crankback Function -- 7.6 PNNI "Soft" Permanent Virtual Circuit (SPVC) Function -- 7.7 PNNI Routing Functions -- 7.8 PNNI Routing Hierarchy -- 7.9 Addresses and Identifiers in PNNI -- 7.10 PNNI Routing Packet Structure and Functions -- 7.11 General Comments on PNNI Routing and Signaling -- 8 ATM Layer Operations and Maintenance (OAM) Functions -- 8.1 Introduction -- 8.2 OAM Principles and General Network Management Architecture -- 8.3 OAM Flows -- 8.4 ATM Layer OAM Flows and Functions -- 8.5 Fault Management Functions-AIS/RDI -- 8.6 Fault Management Functions-Continuity Check (CC) -- 8.7 Fault Management Functions-Loopback (LB) -- 8.8 Performance Management OAM Function -- 8.9 Activation and Deactivation Procedures -- 8.10 OAM Cell Formats and Codings -- 8.11 Functions Specific to the AIS/RDI and CC OAM Cell -- 8.12 Loopback OAM Cell Format and Functions -- 8.13 Functions and Formats of PM OAM Cells -- 8.14 Functions and Format of Activation/Deactivation OAM Cell -- 8.15 Overview of the OAM Cell Types -- 8.16 Relationship between OAM Functions and Connection Availability -- 8.17 Protection Switching at the ATM Layer -- 9 ATM NE Functional Modeling and Requirements -- 9.1 The Need for ATM NE Functional Model Specifications -- 9.2 A General Taxonomy of ATM Equipment Types -- 9.3 Examples of ATM Equipment Types -- 9.4 The Detailed Functional Modeling of ATM NEs -- 9.5 Layer Management Indication (LMI) and the CoF -- 9.6 Examples of the Detailed Functional Model -- 9.7 The AEMF and TMN-Related Interface Protocols -- 9.8 CMIP/CMISE Messages and Functions -- 9.9 Simple Network Management Protocol (SNMP) Functions and Messages -- 9.10 Interim Local Management Interface (ILMI). 9.11 ATM Performance Objectives and QoS Classes -- 10 ATM Adaptation Layer (AAL) and Interworking -- 10.1 The General AAL Functional Model and AAL Types -- 10.2 AAL Type 1-Functions and Format -- 10.3 AAL Type 3/4 Functions and Format -- 10.4 AAL Type 5 Functions and Format -- 10.5 AAL Type 2 Functions and Format -- 10.6 AAL Type 2 Switching and Signaling -- 10.7 The Service-Specific Convergence Sublayer (SSCS) -- 10.8 Interworking -- 11 Frame Relay and ATM Internetworking -- 11.1 Introduction -- 11.2 Frame Relay and ATM Comparison -- 11.3 Frame Relay Service-Specific Convergence Sublayer (FR-SSCS) -- 11.4 FR/ATM Network and Service Interworking -- 11.5 Translation and Transparent Mode in Service Interworking -- 11.6 FR/ATM Management and Control Plane Interworking -- 12 IP and ATM Internetworking -- 12.1 Introduction -- 12.2 IP Internetworking Overview -- 12.3 Overview of LAN Protocol Architectures -- 12.4 Internetworking Protocol (IP) Layer Functions -- 12.5 IP Packet Structure and Functions -- 12.6 Transmission Control Protocol (TCP) Structure and Functions -- 12.7 Encapsulation of IP over ATM -- 12.8 The "Classical" IP over ATM Network Architecture Model -- 12.9 Quality of Service in IP Networks -- 12.10 Integrated Services Architecture (IntServ) and RSVP -- 12.11 The Differentiated Services (DiffServ) Model -- 13 Internetworking Framework Architectures in IP and ATM -- 13.1 Introduction -- 13.2 LAN Emulation over ATM (LANE) -- 13.3 IP Switching -- 13.4 Multiprotocol over ATM (MPOA) -- 13.5 MPO A Functional Overview and Data Transfer Procedures -- 13.6 Flow Characterization and Connection Management in MPOA -- 13.7 Multiprotocol Label Switching (MPLS) -- 13.8 MPLS Architecture and Functions -- 13.9 The Label Distribution Protocol (LDP) -- 13.10 Explicit and Constrained Routed LDP (CR-LDP) -- 13.11 The Generic MPLS Encapsulation Structure -- 14 Perspectives in Networking Technologies -- References -- Index. |
Record Nr. | UNINA-9910146964403321 |
Ahmad Khalid
![]() |
||
Piscataway, New Jersey : , : IEEE Press, , c2002 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Sourcebook of ATM and IP internetworking / / Khalid Ahmad |
Autore | Ahmad Khalid |
Pubbl/distr/stampa | Piscataway, New Jersey : , : IEEE Press, , c2002 |
Descrizione fisica | 1 online resource (486 p.) |
Disciplina | 004.62 |
Collana | IEEE Press series on network management |
Soggetto topico |
Asynchronous transfer mode
Internetworking (Telecommunication) |
ISBN |
1-280-54205-5
9786610542055 0-471-66094-9 0-471-72286-3 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface -- 1 Introduction -- 2 ATM Principles and Basic Definitions -- 2.1 The B-ISDN Protocol Reference Model (PRM) -- 2.2 Transfer Plane Functions and ATM Process Overview -- 2.3 Network Models and Reference Points -- 3 Functions of the ATM Layer -- 3.1 Virtual Path and Virtual Channel Identifiers -- 3.2 Relation between VPC, VCC and VPL, VCL -- 3.3 Preassigned Header Values -- 3.4 The Pay load Type Field -- 3.5 The Cell Loss Priority (CLP) Field -- 3.6 Generic Flow Control (GFC) Function -- 3.7 Primitives and Service Access Points -- 4 Functions of the Physical Layer -- 4.1 Frame-Based and Cell-Based Physical Interfaces -- 4.2 The Cell-Based Physical Interface -- 4.3 The Frame-Based Physical Interface -- 4.4 Cell Delineation Using the HEC -- 5 ATM Traffic Control -- 5.1 The Need for Traffic Control in ATM -- 5.2 Traffic Control Functions Overview -- 5.3 Reference Configuration and Timescales for Traffic Control -- 5.4 Traffic Contracts, Descriptors, and Parameters -- 5.5 The Peak Cell Rate (PCR) -- 5.6 Cell Delay Variation (CDV) -- 5.7 Sustainable Cell Rate (SCR) and Burst Tolerance -- 5.8 The Generic Cell Rate Algorithm (GCRA) and the "Leaky Bucket" Algorithm -- 5.9 ATM Transfer Capabilities (ATC) -- 5.10 Deterministic Bit Rate (DBR) Transfer Capability -- 5.11 Statistical Bit Rate (SBR) Transfer Capability -- 5.12 Available Bit Rate (ABR) Transfer Capability -- 5.13 ABR RM Cell Structure and Parameters -- 5.14 ATM Block Transfer (ABT) Capability -- 5.15 Unspecified Bit Rate (UBR) and Guaranteed Frame Rate (GFR) -- 5.16 Credit-Based Flow Control Capabilities -- 5.17 Generic UPC/NPC and CAC Requirements -- 5.18 General Comments on ATM Traffic Control -- 6 ATM Signaling -- 6.1 B-ISDN Signaling Principles -- 6.2 ATM Signaling Protocol Architectures -- 6.3 Metasignaling -- 6.4 ATM Connection Types -- 6.5 The UNI Signaling Message Set -- 6.6 UNI Information Elements (IEs) -- 6.7 Examples of Message Flows at the UNI -- 6.8 Point-to-Multipoint Connections -- 6.9 The NNI Signaling Message Set-B-ISUP.
6.10 Broadband Inter Carrier Interface (B-ICI) -- 6.11 Message Transfer Part Level 3 (MTP 3) Functionality -- 6.12 ATM Addressing and B-ISUP Routing -- 7 Private NNI (PNNI) Signaling and Routing -- 7.1 Introduction -- 7.2 Basic PNNI Signaling and Routing Concepts -- 7.3 PNNI Signaling Protocols -- 7.4 Source Routing in PNNI Signaling -- 7.5 PNNI Crankback Function -- 7.6 PNNI "Soft" Permanent Virtual Circuit (SPVC) Function -- 7.7 PNNI Routing Functions -- 7.8 PNNI Routing Hierarchy -- 7.9 Addresses and Identifiers in PNNI -- 7.10 PNNI Routing Packet Structure and Functions -- 7.11 General Comments on PNNI Routing and Signaling -- 8 ATM Layer Operations and Maintenance (OAM) Functions -- 8.1 Introduction -- 8.2 OAM Principles and General Network Management Architecture -- 8.3 OAM Flows -- 8.4 ATM Layer OAM Flows and Functions -- 8.5 Fault Management Functions-AIS/RDI -- 8.6 Fault Management Functions-Continuity Check (CC) -- 8.7 Fault Management Functions-Loopback (LB) -- 8.8 Performance Management OAM Function -- 8.9 Activation and Deactivation Procedures -- 8.10 OAM Cell Formats and Codings -- 8.11 Functions Specific to the AIS/RDI and CC OAM Cell -- 8.12 Loopback OAM Cell Format and Functions -- 8.13 Functions and Formats of PM OAM Cells -- 8.14 Functions and Format of Activation/Deactivation OAM Cell -- 8.15 Overview of the OAM Cell Types -- 8.16 Relationship between OAM Functions and Connection Availability -- 8.17 Protection Switching at the ATM Layer -- 9 ATM NE Functional Modeling and Requirements -- 9.1 The Need for ATM NE Functional Model Specifications -- 9.2 A General Taxonomy of ATM Equipment Types -- 9.3 Examples of ATM Equipment Types -- 9.4 The Detailed Functional Modeling of ATM NEs -- 9.5 Layer Management Indication (LMI) and the CoF -- 9.6 Examples of the Detailed Functional Model -- 9.7 The AEMF and TMN-Related Interface Protocols -- 9.8 CMIP/CMISE Messages and Functions -- 9.9 Simple Network Management Protocol (SNMP) Functions and Messages -- 9.10 Interim Local Management Interface (ILMI). 9.11 ATM Performance Objectives and QoS Classes -- 10 ATM Adaptation Layer (AAL) and Interworking -- 10.1 The General AAL Functional Model and AAL Types -- 10.2 AAL Type 1-Functions and Format -- 10.3 AAL Type 3/4 Functions and Format -- 10.4 AAL Type 5 Functions and Format -- 10.5 AAL Type 2 Functions and Format -- 10.6 AAL Type 2 Switching and Signaling -- 10.7 The Service-Specific Convergence Sublayer (SSCS) -- 10.8 Interworking -- 11 Frame Relay and ATM Internetworking -- 11.1 Introduction -- 11.2 Frame Relay and ATM Comparison -- 11.3 Frame Relay Service-Specific Convergence Sublayer (FR-SSCS) -- 11.4 FR/ATM Network and Service Interworking -- 11.5 Translation and Transparent Mode in Service Interworking -- 11.6 FR/ATM Management and Control Plane Interworking -- 12 IP and ATM Internetworking -- 12.1 Introduction -- 12.2 IP Internetworking Overview -- 12.3 Overview of LAN Protocol Architectures -- 12.4 Internetworking Protocol (IP) Layer Functions -- 12.5 IP Packet Structure and Functions -- 12.6 Transmission Control Protocol (TCP) Structure and Functions -- 12.7 Encapsulation of IP over ATM -- 12.8 The "Classical" IP over ATM Network Architecture Model -- 12.9 Quality of Service in IP Networks -- 12.10 Integrated Services Architecture (IntServ) and RSVP -- 12.11 The Differentiated Services (DiffServ) Model -- 13 Internetworking Framework Architectures in IP and ATM -- 13.1 Introduction -- 13.2 LAN Emulation over ATM (LANE) -- 13.3 IP Switching -- 13.4 Multiprotocol over ATM (MPOA) -- 13.5 MPO A Functional Overview and Data Transfer Procedures -- 13.6 Flow Characterization and Connection Management in MPOA -- 13.7 Multiprotocol Label Switching (MPLS) -- 13.8 MPLS Architecture and Functions -- 13.9 The Label Distribution Protocol (LDP) -- 13.10 Explicit and Constrained Routed LDP (CR-LDP) -- 13.11 The Generic MPLS Encapsulation Structure -- 14 Perspectives in Networking Technologies -- References -- Index. |
Altri titoli varianti | Sourcebook of Asynchronous Transfer Mode and internetworking-protocol internetworking |
Record Nr. | UNISA-996216103703316 |
Ahmad Khalid
![]() |
||
Piscataway, New Jersey : , : IEEE Press, , c2002 | ||
![]() | ||
Lo trovi qui: Univ. di Salerno | ||
|
Sourcebook of ATM and IP internetworking / / Khalid Ahmad |
Autore | Ahmad Khalid |
Pubbl/distr/stampa | Piscataway, New Jersey : , : IEEE Press, , c2002 |
Descrizione fisica | 1 online resource (486 p.) |
Disciplina | 004.62 |
Collana | IEEE Press series on network management |
Soggetto topico |
Asynchronous transfer mode
Internetworking (Telecommunication) |
ISBN |
1-280-54205-5
9786610542055 0-471-66094-9 0-471-72286-3 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface -- 1 Introduction -- 2 ATM Principles and Basic Definitions -- 2.1 The B-ISDN Protocol Reference Model (PRM) -- 2.2 Transfer Plane Functions and ATM Process Overview -- 2.3 Network Models and Reference Points -- 3 Functions of the ATM Layer -- 3.1 Virtual Path and Virtual Channel Identifiers -- 3.2 Relation between VPC, VCC and VPL, VCL -- 3.3 Preassigned Header Values -- 3.4 The Pay load Type Field -- 3.5 The Cell Loss Priority (CLP) Field -- 3.6 Generic Flow Control (GFC) Function -- 3.7 Primitives and Service Access Points -- 4 Functions of the Physical Layer -- 4.1 Frame-Based and Cell-Based Physical Interfaces -- 4.2 The Cell-Based Physical Interface -- 4.3 The Frame-Based Physical Interface -- 4.4 Cell Delineation Using the HEC -- 5 ATM Traffic Control -- 5.1 The Need for Traffic Control in ATM -- 5.2 Traffic Control Functions Overview -- 5.3 Reference Configuration and Timescales for Traffic Control -- 5.4 Traffic Contracts, Descriptors, and Parameters -- 5.5 The Peak Cell Rate (PCR) -- 5.6 Cell Delay Variation (CDV) -- 5.7 Sustainable Cell Rate (SCR) and Burst Tolerance -- 5.8 The Generic Cell Rate Algorithm (GCRA) and the "Leaky Bucket" Algorithm -- 5.9 ATM Transfer Capabilities (ATC) -- 5.10 Deterministic Bit Rate (DBR) Transfer Capability -- 5.11 Statistical Bit Rate (SBR) Transfer Capability -- 5.12 Available Bit Rate (ABR) Transfer Capability -- 5.13 ABR RM Cell Structure and Parameters -- 5.14 ATM Block Transfer (ABT) Capability -- 5.15 Unspecified Bit Rate (UBR) and Guaranteed Frame Rate (GFR) -- 5.16 Credit-Based Flow Control Capabilities -- 5.17 Generic UPC/NPC and CAC Requirements -- 5.18 General Comments on ATM Traffic Control -- 6 ATM Signaling -- 6.1 B-ISDN Signaling Principles -- 6.2 ATM Signaling Protocol Architectures -- 6.3 Metasignaling -- 6.4 ATM Connection Types -- 6.5 The UNI Signaling Message Set -- 6.6 UNI Information Elements (IEs) -- 6.7 Examples of Message Flows at the UNI -- 6.8 Point-to-Multipoint Connections -- 6.9 The NNI Signaling Message Set-B-ISUP.
6.10 Broadband Inter Carrier Interface (B-ICI) -- 6.11 Message Transfer Part Level 3 (MTP 3) Functionality -- 6.12 ATM Addressing and B-ISUP Routing -- 7 Private NNI (PNNI) Signaling and Routing -- 7.1 Introduction -- 7.2 Basic PNNI Signaling and Routing Concepts -- 7.3 PNNI Signaling Protocols -- 7.4 Source Routing in PNNI Signaling -- 7.5 PNNI Crankback Function -- 7.6 PNNI "Soft" Permanent Virtual Circuit (SPVC) Function -- 7.7 PNNI Routing Functions -- 7.8 PNNI Routing Hierarchy -- 7.9 Addresses and Identifiers in PNNI -- 7.10 PNNI Routing Packet Structure and Functions -- 7.11 General Comments on PNNI Routing and Signaling -- 8 ATM Layer Operations and Maintenance (OAM) Functions -- 8.1 Introduction -- 8.2 OAM Principles and General Network Management Architecture -- 8.3 OAM Flows -- 8.4 ATM Layer OAM Flows and Functions -- 8.5 Fault Management Functions-AIS/RDI -- 8.6 Fault Management Functions-Continuity Check (CC) -- 8.7 Fault Management Functions-Loopback (LB) -- 8.8 Performance Management OAM Function -- 8.9 Activation and Deactivation Procedures -- 8.10 OAM Cell Formats and Codings -- 8.11 Functions Specific to the AIS/RDI and CC OAM Cell -- 8.12 Loopback OAM Cell Format and Functions -- 8.13 Functions and Formats of PM OAM Cells -- 8.14 Functions and Format of Activation/Deactivation OAM Cell -- 8.15 Overview of the OAM Cell Types -- 8.16 Relationship between OAM Functions and Connection Availability -- 8.17 Protection Switching at the ATM Layer -- 9 ATM NE Functional Modeling and Requirements -- 9.1 The Need for ATM NE Functional Model Specifications -- 9.2 A General Taxonomy of ATM Equipment Types -- 9.3 Examples of ATM Equipment Types -- 9.4 The Detailed Functional Modeling of ATM NEs -- 9.5 Layer Management Indication (LMI) and the CoF -- 9.6 Examples of the Detailed Functional Model -- 9.7 The AEMF and TMN-Related Interface Protocols -- 9.8 CMIP/CMISE Messages and Functions -- 9.9 Simple Network Management Protocol (SNMP) Functions and Messages -- 9.10 Interim Local Management Interface (ILMI). 9.11 ATM Performance Objectives and QoS Classes -- 10 ATM Adaptation Layer (AAL) and Interworking -- 10.1 The General AAL Functional Model and AAL Types -- 10.2 AAL Type 1-Functions and Format -- 10.3 AAL Type 3/4 Functions and Format -- 10.4 AAL Type 5 Functions and Format -- 10.5 AAL Type 2 Functions and Format -- 10.6 AAL Type 2 Switching and Signaling -- 10.7 The Service-Specific Convergence Sublayer (SSCS) -- 10.8 Interworking -- 11 Frame Relay and ATM Internetworking -- 11.1 Introduction -- 11.2 Frame Relay and ATM Comparison -- 11.3 Frame Relay Service-Specific Convergence Sublayer (FR-SSCS) -- 11.4 FR/ATM Network and Service Interworking -- 11.5 Translation and Transparent Mode in Service Interworking -- 11.6 FR/ATM Management and Control Plane Interworking -- 12 IP and ATM Internetworking -- 12.1 Introduction -- 12.2 IP Internetworking Overview -- 12.3 Overview of LAN Protocol Architectures -- 12.4 Internetworking Protocol (IP) Layer Functions -- 12.5 IP Packet Structure and Functions -- 12.6 Transmission Control Protocol (TCP) Structure and Functions -- 12.7 Encapsulation of IP over ATM -- 12.8 The "Classical" IP over ATM Network Architecture Model -- 12.9 Quality of Service in IP Networks -- 12.10 Integrated Services Architecture (IntServ) and RSVP -- 12.11 The Differentiated Services (DiffServ) Model -- 13 Internetworking Framework Architectures in IP and ATM -- 13.1 Introduction -- 13.2 LAN Emulation over ATM (LANE) -- 13.3 IP Switching -- 13.4 Multiprotocol over ATM (MPOA) -- 13.5 MPO A Functional Overview and Data Transfer Procedures -- 13.6 Flow Characterization and Connection Management in MPOA -- 13.7 Multiprotocol Label Switching (MPLS) -- 13.8 MPLS Architecture and Functions -- 13.9 The Label Distribution Protocol (LDP) -- 13.10 Explicit and Constrained Routed LDP (CR-LDP) -- 13.11 The Generic MPLS Encapsulation Structure -- 14 Perspectives in Networking Technologies -- References -- Index. |
Altri titoli varianti | Sourcebook of Asynchronous Transfer Mode and internetworking-protocol internetworking |
Record Nr. | UNINA-9910830984003321 |
Ahmad Khalid
![]() |
||
Piscataway, New Jersey : , : IEEE Press, , c2002 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Sourcebook of ATM and IP internetworking / / Khalid Ahmad |
Autore | Ahmad Khalid |
Pubbl/distr/stampa | Piscataway, NJ, : IEEE Press |
Descrizione fisica | 1 online resource (486 p.) |
Disciplina | 004.62 |
Collana | IEEE Press series on network management |
Soggetto topico |
Asynchronous transfer mode
Internetworking (Telecommunication) |
ISBN |
1-280-54205-5
9786610542055 0-471-66094-9 0-471-72286-3 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface -- 1 Introduction -- 2 ATM Principles and Basic Definitions -- 2.1 The B-ISDN Protocol Reference Model (PRM) -- 2.2 Transfer Plane Functions and ATM Process Overview -- 2.3 Network Models and Reference Points -- 3 Functions of the ATM Layer -- 3.1 Virtual Path and Virtual Channel Identifiers -- 3.2 Relation between VPC, VCC and VPL, VCL -- 3.3 Preassigned Header Values -- 3.4 The Pay load Type Field -- 3.5 The Cell Loss Priority (CLP) Field -- 3.6 Generic Flow Control (GFC) Function -- 3.7 Primitives and Service Access Points -- 4 Functions of the Physical Layer -- 4.1 Frame-Based and Cell-Based Physical Interfaces -- 4.2 The Cell-Based Physical Interface -- 4.3 The Frame-Based Physical Interface -- 4.4 Cell Delineation Using the HEC -- 5 ATM Traffic Control -- 5.1 The Need for Traffic Control in ATM -- 5.2 Traffic Control Functions Overview -- 5.3 Reference Configuration and Timescales for Traffic Control -- 5.4 Traffic Contracts, Descriptors, and Parameters -- 5.5 The Peak Cell Rate (PCR) -- 5.6 Cell Delay Variation (CDV) -- 5.7 Sustainable Cell Rate (SCR) and Burst Tolerance -- 5.8 The Generic Cell Rate Algorithm (GCRA) and the "Leaky Bucket" Algorithm -- 5.9 ATM Transfer Capabilities (ATC) -- 5.10 Deterministic Bit Rate (DBR) Transfer Capability -- 5.11 Statistical Bit Rate (SBR) Transfer Capability -- 5.12 Available Bit Rate (ABR) Transfer Capability -- 5.13 ABR RM Cell Structure and Parameters -- 5.14 ATM Block Transfer (ABT) Capability -- 5.15 Unspecified Bit Rate (UBR) and Guaranteed Frame Rate (GFR) -- 5.16 Credit-Based Flow Control Capabilities -- 5.17 Generic UPC/NPC and CAC Requirements -- 5.18 General Comments on ATM Traffic Control -- 6 ATM Signaling -- 6.1 B-ISDN Signaling Principles -- 6.2 ATM Signaling Protocol Architectures -- 6.3 Metasignaling -- 6.4 ATM Connection Types -- 6.5 The UNI Signaling Message Set -- 6.6 UNI Information Elements (IEs) -- 6.7 Examples of Message Flows at the UNI -- 6.8 Point-to-Multipoint Connections -- 6.9 The NNI Signaling Message Set-B-ISUP.
6.10 Broadband Inter Carrier Interface (B-ICI) -- 6.11 Message Transfer Part Level 3 (MTP 3) Functionality -- 6.12 ATM Addressing and B-ISUP Routing -- 7 Private NNI (PNNI) Signaling and Routing -- 7.1 Introduction -- 7.2 Basic PNNI Signaling and Routing Concepts -- 7.3 PNNI Signaling Protocols -- 7.4 Source Routing in PNNI Signaling -- 7.5 PNNI Crankback Function -- 7.6 PNNI "Soft" Permanent Virtual Circuit (SPVC) Function -- 7.7 PNNI Routing Functions -- 7.8 PNNI Routing Hierarchy -- 7.9 Addresses and Identifiers in PNNI -- 7.10 PNNI Routing Packet Structure and Functions -- 7.11 General Comments on PNNI Routing and Signaling -- 8 ATM Layer Operations and Maintenance (OAM) Functions -- 8.1 Introduction -- 8.2 OAM Principles and General Network Management Architecture -- 8.3 OAM Flows -- 8.4 ATM Layer OAM Flows and Functions -- 8.5 Fault Management Functions-AIS/RDI -- 8.6 Fault Management Functions-Continuity Check (CC) -- 8.7 Fault Management Functions-Loopback (LB) -- 8.8 Performance Management OAM Function -- 8.9 Activation and Deactivation Procedures -- 8.10 OAM Cell Formats and Codings -- 8.11 Functions Specific to the AIS/RDI and CC OAM Cell -- 8.12 Loopback OAM Cell Format and Functions -- 8.13 Functions and Formats of PM OAM Cells -- 8.14 Functions and Format of Activation/Deactivation OAM Cell -- 8.15 Overview of the OAM Cell Types -- 8.16 Relationship between OAM Functions and Connection Availability -- 8.17 Protection Switching at the ATM Layer -- 9 ATM NE Functional Modeling and Requirements -- 9.1 The Need for ATM NE Functional Model Specifications -- 9.2 A General Taxonomy of ATM Equipment Types -- 9.3 Examples of ATM Equipment Types -- 9.4 The Detailed Functional Modeling of ATM NEs -- 9.5 Layer Management Indication (LMI) and the CoF -- 9.6 Examples of the Detailed Functional Model -- 9.7 The AEMF and TMN-Related Interface Protocols -- 9.8 CMIP/CMISE Messages and Functions -- 9.9 Simple Network Management Protocol (SNMP) Functions and Messages -- 9.10 Interim Local Management Interface (ILMI). 9.11 ATM Performance Objectives and QoS Classes -- 10 ATM Adaptation Layer (AAL) and Interworking -- 10.1 The General AAL Functional Model and AAL Types -- 10.2 AAL Type 1-Functions and Format -- 10.3 AAL Type 3/4 Functions and Format -- 10.4 AAL Type 5 Functions and Format -- 10.5 AAL Type 2 Functions and Format -- 10.6 AAL Type 2 Switching and Signaling -- 10.7 The Service-Specific Convergence Sublayer (SSCS) -- 10.8 Interworking -- 11 Frame Relay and ATM Internetworking -- 11.1 Introduction -- 11.2 Frame Relay and ATM Comparison -- 11.3 Frame Relay Service-Specific Convergence Sublayer (FR-SSCS) -- 11.4 FR/ATM Network and Service Interworking -- 11.5 Translation and Transparent Mode in Service Interworking -- 11.6 FR/ATM Management and Control Plane Interworking -- 12 IP and ATM Internetworking -- 12.1 Introduction -- 12.2 IP Internetworking Overview -- 12.3 Overview of LAN Protocol Architectures -- 12.4 Internetworking Protocol (IP) Layer Functions -- 12.5 IP Packet Structure and Functions -- 12.6 Transmission Control Protocol (TCP) Structure and Functions -- 12.7 Encapsulation of IP over ATM -- 12.8 The "Classical" IP over ATM Network Architecture Model -- 12.9 Quality of Service in IP Networks -- 12.10 Integrated Services Architecture (IntServ) and RSVP -- 12.11 The Differentiated Services (DiffServ) Model -- 13 Internetworking Framework Architectures in IP and ATM -- 13.1 Introduction -- 13.2 LAN Emulation over ATM (LANE) -- 13.3 IP Switching -- 13.4 Multiprotocol over ATM (MPOA) -- 13.5 MPO A Functional Overview and Data Transfer Procedures -- 13.6 Flow Characterization and Connection Management in MPOA -- 13.7 Multiprotocol Label Switching (MPLS) -- 13.8 MPLS Architecture and Functions -- 13.9 The Label Distribution Protocol (LDP) -- 13.10 Explicit and Constrained Routed LDP (CR-LDP) -- 13.11 The Generic MPLS Encapsulation Structure -- 14 Perspectives in Networking Technologies -- References -- Index. |
Record Nr. | UNINA-9910877602903321 |
Ahmad Khalid
![]() |
||
Piscataway, NJ, : IEEE Press | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Switching Theory, Architectures and Performance in Broadband ATM Networks: Architectures and Performance in Broadband ATM Networks |
Autore | Pattavina Achille |
Pubbl/distr/stampa | [Place of publication not identified], : John Wiley & Sons Incorporated, 1998 |
Descrizione fisica | 1 online resource (423 pages) |
Disciplina | 621.3815372 |
Soggetto topico |
Asynchronous transfer mode
Broadband communication systems Communication technology Computer network architectures Switching theory |
ISBN |
1-280-55527-0
9786610555277 0-470-85251-8 0-470-84191-5 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Preface -- Chapter 1 Broadband Integrated Services Digital Network -- 1.1. Current Networking Scenario -- 1.1.1. Communication services -- 1.1.2. Networking issues -- 1.2. The Path to Broadband Networking -- 1.2.1. Network evolution through ISDN to B-ISDN -- 1.2.2. The protocol reference model -- 1.3. Transfer Mode and Control of the B-ISDN -- 1.3.1. Asynchronous time division multiplexing -- 1.3.2. Congestion control issues -- 1.4. Synchronous Digital Transmission -- 1.4.1. SDH basic features -- 1.4.2. SDH multiplexing structure -- 1.4.3. Synchronization by pointers -- 1.4.4. Mapping of SDH elements -- 1.5. The ATM Standard -- 1.5.1. Protocol reference model -- 1.5.2. The physical layer -- 1.5.3. The ATM layer -- 1.5.4. The ATM adaptation layer -- 1.5.4.1. AAL Type 1 -- 1.5.4.2. AAL Type 2 -- 1.5.4.3. AAL Type 3/4 -- 1.5.4.4. AAL Type 5 -- 1.5.4.5. AAL payload capacity -- 1.6. References -- 1.7. Problems -- Chapter 2 Interconnection Networks -- 2.1. Basic Network Concepts -- 2.1.1. Equivalence between networks -- 2.1.2. Crossbar network based on splitters and combiners -- 2.2. Full-connection Multistage Networks -- 2.3. Partial-connection Multistage Networks -- 2.3.1. Banyan networks -- 2.3.1.1. Banyan network topologies -- 2.3.1.2. Banyan network properties -- 2.3.2. Sorting networks -- 2.3.2.1. Merging networks -- 2.3.2.2. Sorting networks -- 2.4. Proof of Merging Schemes -- 2.4.1. Odd-even merge sorting -- 2.4.2. Bitonic merge sorting -- 2.5. References -- 2.6. Problems -- Chapter 3 Rearrangeable Networks -- 3.1. Full-connection Multistage Networks -- 3.2. Partial-connection Multistage Networks -- 3.2.1. Partially self-routing PC networks -- 3.2.1.1. Horizontal extension -- 3.2.1.2. Vertical replication -- 3.2.1.3. Vertical replication with horizontal extension -- 3.2.1.4. Bounds on PC rearrangeable networks -- 3.2.2. Fully self-routing PC networks -- 3.2.3. Fully self-routing PC networks with output multiplexing -- 3.3. Bounds on the Network Cost Function -- 3.4. References -- 3.5. Problems -- Chapter 4 Non-blocking Networks -- 4.1. Full-connection Multistage Networks -- 4.1.1. Two-stage network -- 4.1.2. Three-stage network -- 4.1.3. Recursive network construction -- 4.2. Partial-connection Multistage Networks -- 4.2.1. Vertical replication -- 4.2.2. Vertical replication with horizontal extension -- 4.2.3. Link dilation -- 4.2.4. EGS networks -- 4.3. Comparison of Non-blocking Networks -- 4.4. Bounds on the Network Cost Function -- 4.5. References -- 4.6. Problems -- Chapter 5 The ATM Switch Model -- 5.1. The Switch Model -- 5.2. ATM Switch Taxonomy -- 5.3. References -- Chapter 6 ATM Switching with Minimum-Depth Blocking Networks -- 6.1. Unbuffered Networks -- 6.1.1. Crossbar and basic banyan networks -- 6.1.1.1. Basic structures -- 6.1.1.2. Performance -- 6.1.2. Enhanced banyan networks -- 6.1.2.1. Structures -- 6.1.2.2. Performance -- 6.2. Networks with a Single Plane and Internal Queueing -- 6.2.1. Input queueing -- 6.2.2. Output queueing -- 6.2.3. Shared queueing -- 6.2.4. Performance -- 6.3. Networks with Unbuffered Parallel Switching Planes -- 6.3.1. Basic architectures -- 6.3.2. Architectures with output queueing -- 6.3.2.1. Specific architectures -- 6.3.2.2. Performance -- 6.3.3. Architectures with combined input-output queueing -- 6.3.3.1. Models for performance analysis -- 6.3.3.2. Performance results -- 6.4. Additional Remarks -- 6.5. References -- 6.6. Problems -- Chapter 7 ATM Switching with Non-Blocking Single-Queueing Networks -- 7.1. Input Queueing -- 7.1.1. Basic architectures -- 7.1.1.1. The Three-Phase switch -- 7.1.1.2. The Ring-Reservation switch -- 7.1.2. Performance analysis -- 7.1.2.1. Asymptotic throughput -- 7.1.2.2. Packet delay -- 7.1.2.3. Packet loss probability -- 7.1.3. Enhanced architectures -- 7.1.3.1. Architecture with channel grouping -- 7.1.3.2. Architecture with windowing -- 7.2. Output Queueing -- 7.2.1. Basic architectures -- 7.2.2. Performance analysis -- 7.3. Shared Queueing -- 7.3.1. Basic architectures -- 7.3.2. Performance analysis -- 7.4. Performance Comparison of Different Queueings -- 7.5. Additional Remarks -- 7.6. References -- 7.7. Problems -- Chapter 8 ATM Switching with Non-Blocking Multiple-Queueing Networks -- 8.1. Combined Input-Output Queueing -- 8.1.1. Basic architectures -- 8.1.1.1. Internal queue loss -- 8.1.1.2. Internal backpressure -- 8.1.2. Performance analysis -- 8.1.2.1. Constrained output queue capacity -- 8.1.2.2. Arbitrary input and output queue capacities -- 8.1.3. Architectures with parallel switching planes -- 8.2. Combined Shared-Output Queueing -- 8.2.1. Basic architecture -- 8.2.2. Performance analysis -- 8.3. Combined Input-Shared Queueing -- 8.3.1. Basic architectures -- 8.3.2. Performance analysis -- 8.4. Comparison of Switch Capacities in Non-blocking Switches -- 8.5. Additional Remarks -- 8.6. References -- 8.7. Problems -- Chapter 9 ATM Switching with Arbitrary-Depth Blocking Networks -- 9.1. Switch Architectures Based on Deflection Routing -- 9.1.1. The Shuffleout switch -- 9.1.2. The Shuffle Self-Routing switch -- 9.1.3. The Rerouting switch -- 9.1.4. The Dual Shuffle switch -- 9.2. Switch Architectures Based on Simpler SEs -- 9.2.1. Previous Architectures with SEs -- 9.2.2. The Tandem Banyan switch -- 9.3. Architecture Enhancements -- 9.3.1. Extended routing -- 9.3.2. Interstage bridging -- 9.4. Performance Evaluation and Comparison -- 9.4.1. The Shuffleout switch -- 9.4.1.1. Network with 2 X 4 SEs -- 9.4.1.2. Network with 2 X 2 SEs -- 9.4.1.3. Network performance -- 9.4.2. The Shuffle Self-Routing switch -- 9.4.2.1. Basic network with 2 X 4 SEs -- 9.4.2.2. Basic network with 2 X 2 SEs -- 9.4.2.3. Basic network performance -- 9.4.2.4. Network with extended routing and 2 X 4 SEs -- 9.4.2.5. Network with extended routing and 2 X 2 SEs -- 9.4.2.6. Network performance with extended routing -- 9.4.3. The Rerouting switch -- 9.4.4. The Dual Shuffle switch -- 9.4.5. The Tandem Banyan switch -- 9.4.6. Interconnection network performance comparison -- 9.4.7. Overall switch performance -- 9.5. Switch Architectures with Parallel Switching Planes -- 9.6. Additional Remarks -- 9.7. References -- 9.8. Problems -- Appendix Synchronous Queues -- A.1 Synchronous Single-server Queues -- A.1.1. The M/D/I queue -- A.1.1.1. The asynchronous M/G/1 queue -- A.1.1.2. The asynchronous M/D/1 queue -- A.1.1.3. The synchronous M/D/1 queue -- A.1.2. The Geom (N)/D/1 queue -- A.1.3. The Geom/G/1 queue -- A.1.4. The Geom/G/1/B queue -- A.2. Synchronous Multiple-server Queues -- A.2.1. The M/D/C queue -- A.2.2. The Geom(N)/D/C/B queue -- A.3. References -- Index. |
Record Nr. | UNINA-9910146064303321 |
Pattavina Achille
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[Place of publication not identified], : John Wiley & Sons Incorporated, 1998 | ||
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Lo trovi qui: Univ. Federico II | ||
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Total area networking : ATM, IP, frame relay, and SMDS explained / / John Atkins, Mark Norris |
Autore | Atkins John <1946-> |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Chichester, West Sussex, England : , : John Wiley & Sons, , 1999 |
Descrizione fisica | 1 online resource (327 p.) |
Disciplina | 004.6 |
Collana | Wiley-BT Series |
Soggetto topico |
Wide area networks (Computer networks)
Frame relay (Data transmission) Asynchronous transfer mode Switched multi-megabit data service.3 |
ISBN |
1-280-55497-5
9786610554973 0-470-84153-2 0-470-85369-7 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
TOTAL AREA NETWORKING; Contents; Preface; Foreword; About the Authors; Acknowledgements; 1 The Information Age; 2 The Total Area Network; 3 Frame Relay; 4 Switched Multi-Megabit Data Service (SMDS); 5 Asynchronous Transfer Mode (ATM); 6 A Telecommunications View of the Total Area Network; 7 A Computing View of the Total Area Network; 8 Network Management; 9 Survival in the Information Jungle; Appendix 1: Data Communications-Some Basic Concepts and Standards; Appendix 2 Distributed Computing-Some Basic Concepts and Standards; Appendix 3 The Future of Network Supply and Operation; Glossary
Index |
Record Nr. | UNINA-9910142477903321 |
Atkins John <1946->
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Chichester, West Sussex, England : , : John Wiley & Sons, , 1999 | ||
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Lo trovi qui: Univ. Federico II | ||
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Understanding what it means for assurance cases to "work" / / David J. Rinehart, John C. Knight and Jonathan Rowanhill |
Autore | Rinehart David J. |
Pubbl/distr/stampa | Hampton, Virginia : , : National Aeronautics and Space Administration, Langley Research Center, , April 2017 |
Descrizione fisica | 1 online resource (ii unnumbered pages, 71 pages) : color illustrations |
Collana | NASA/CR |
Soggetto topico |
Air traffic control
Assurance Asynchronous transfer mode Certification Computer systems programs |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910705798303321 |
Rinehart David J.
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Hampton, Virginia : , : National Aeronautics and Space Administration, Langley Research Center, , April 2017 | ||
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Lo trovi qui: Univ. Federico II | ||
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