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6LoWPAN : the wireless embedded internet / / Zach Shelby, Carsten Bormann
6LoWPAN : the wireless embedded internet / / Zach Shelby, Carsten Bormann
Autore Shelby Zach
Edizione [1st edition]
Pubbl/distr/stampa Chichester, U.K. : , : J. Wiley, , c2009
Descrizione fisica 1 online resource (245 p.)
Disciplina 621.38212
621.384
Altri autori (Persone) BormannCarsten
Collana Wiley series on communications networking & distributed systems
Soggetto topico Wireless Internet
Wireless communication systems - Standards
Low voltage systems
ISBN 1-282-37952-6
9786612379529
0-470-68621-9
0-470-68622-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto -- List of Figures ix -- List of Tables xiii -- Foreword xv -- Preface xvii -- Acknowledgments xix -- 1 Introduction 1 -- 1.1 The Wireless Embedded Internet 3 -- 1.1.1 Why 6LoWPAN? 4 -- 1.1.2 6LoWPAN history and standardization 6 -- 1.1.3 Relation of 6LoWPAN toother trends 8 -- 1.1.4 Applications of 6LoWPAN 9 -- 1.1.5 Example: facility management 11 -- 1.2 The 6LoWPAN Architecture 13 -- 1.3 6LoWPAN Introduction 15 -- 1.3.1 The protocol stack 16 -- 1.3.2 Link layers for 6LoWPAN 17 -- 1.3.3 Addressing 19 -- 1.3.4 Header format 20 -- 1.3.5 Bootstrapping 20 -- 1.3.6 Mesh topologies 22 -- 1.3.7 Internet integration 23 -- 1.4 Network Example 24 -- 2 The 6LoWPAN Format 27 -- 2.1 Functions of an Adaptation Layer 28 -- 2.2 Assumptions About the Link Layer 29 -- 2.2.1 Link-layer technologies beyond IEEE 802.15.4 29 -- 2.2.2 Link-layer service model 30 -- 2.2.3 Link-layer addressing 31 -- 2.2.4 Link-layer management and operation 32 -- 2.3 The Basic 6LoWPAN Format 32 -- 2.4 Addressing 34 -- 2.5 Forwarding and Routing 37 -- 2.5.1 L2 forwarding (“Mesh-Under”) 38 -- 2.5.2 L3 routing (“Route-Over”) 40 -- 2.6 Header Compression 41 -- 2.6.1 Stateless header compression 43 -- 2.6.2 Context-based header compression 45 -- 2.7 Fragmentation and Reassembly 52 -- 2.7.1 The fragmentation format 55 -- 2.7.2 Avoiding the fragmentation performance penalty 59 -- 2.8 Multicast 59 -- 3 Bootstrapping and Security 63 -- 3.1 Commissioning 64 -- 3.2 Neighbor Discovery 66 -- 3.2.1 Forming addresses 67 -- 3.2.2 Registration 69 -- 3.2.3 Registration collisions 73 -- 3.2.4 Multihop registration 77 -- 3.2.5 Node operation 80 -- 3.2.6 Router operation 81 -- 3.2.7 Edge router operation 82 -- 3.3 Security 83 -- 3.3.1 Security objectives and threat models 84 -- 3.3.2 Layer2 mechanisms 85 -- 3.3.3 Layer3 mechanisms 87 -- 3.3.4 Key management 89 -- 4 Mobility and Routing 91 -- 4.1 Mobility 92 -- 4.1.1 Mobility types 92 -- 4.1.2 Solutions for mobility 94 -- 4.1.3 Application methods 96 -- 4.1.4 Mobile IPv6 97.
4.1.5 Proxy Home Agent 100 -- 4.1.6 ProxyMIPv6 100 -- 4.1.7 NEMO 102 -- 4.2 Routing 104 -- 4.2.1 Overview 104 -- 4.2.2 The role of Neighbor Discovery 107 -- 4.2.3 Routing requirements 108 -- 4.2.4 Route metrics 109 -- 4.2.5 MANET routing protocols 111 -- 4.2.6 The ROLL routing protocol 114 -- 4.2.7 Border routing 119 -- 4.3 IPv4 Interconnectivity 120 -- 4.3.1 IPv6 transition 121 -- 4.3.2 IPv6-in-IPv4 tunneling 122 -- 5 Application Protocols 125 -- 5.1 Introduction 126 -- 5.2 Design Issues 127 -- 5.2.1 Linklayer 129 -- 5.2.2 Networking 130 -- 5.2.3 Host issues 130 -- 5.2.4 Compression 131 -- 5.2.5 Security 131 -- 5.3 Protocol Paradigms 132 -- 5.3.1 End-to-end 132 -- 5.3.2 Real-time streaming and sessions 132 -- 5.3.3 Publish/subscribe 133 -- 5.3.4 Web service paradigms 134 -- 5.4 Common Protocols 134 -- 5.4.1 Web service protocols 135 -- 5.4.2 MQ telemetry transport for sensor networks (MQTT-S) 137 -- 5.4.3 ZigBee compact application protocol (CAP) 139 -- 5.4.4 Service discovery 141 -- 5.4.5 Simple network management protocol (SNMP) 142 -- 5.4.6 Real-time transport and sessions 143 -- 5.4.7 Industry-specific protocols 144 -- 6 Using 6LoWPAN 149 -- 6.1 Chip Solutions 150 -- 6.1.1 Single-chip solutions 150 -- 6.1.2 Two-chip solutions 151 -- 6.1.3 Network processor solutions 151 -- 6.2 Protocol Stacks 152 -- 6.2.1 ContikianduIPv6 153 -- 6.2.2 TinyOS and BLIP 153 -- 6.2.3 Sensinode NanoStack 154 -- 6.2.4 Jennic6LoWPAN 155 -- 6.2.5 Nivis ISA100 155 -- 6.3 Application Development 156 -- 6.4 Edge Router Integration 159 -- 7 System Examples 163 -- 7.1 ISA100 Industrial Automation 164 -- 7.1.1 Motivation for industrial wireless sensor networks 164 -- 7.1.2 Complications of the industrial space 165 -- 7.1.3 The ISA100.11a standard 166 -- 7.1.4 ISA100.11a data link layer 169 -- 7.2 Wireless RFID Infrastructure 170 -- 7.2.1 Technical overview 172 -- 7.2.2 Benefits from 6LoWPAN 173 -- 7.3 Building Energy Savings and Management 174 -- 7.3.1 Network architecture 174 -- 7.3.2 Technical overview 174.
7.3.3 Benefits from 6LoWPAN 175 -- 8 Conclusion 177 -- A IPv6 Reference 181 -- A.1 Notation 181 -- A.2 Addressing 182 -- A.3 IPv6 Neighbor Discovery 184 -- A.4 IPv6 Stateless Address Autoconfiguration 188 -- B IEEE 802.15.4 Reference 191 -- B.1 Introduction 191 -- B.2 Overall Packet Format 192 -- B.3 MAC-layer Security 194 -- List of Abbreviations 195 -- Glossary 203 -- References 209 -- Index 219.
Record Nr. UNINA-9910139968503321
Shelby Zach  
Chichester, U.K. : , : J. Wiley, , c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
6LoWPAN : the wireless embedded internet / / Zach Shelby, Carsten Bormann
6LoWPAN : the wireless embedded internet / / Zach Shelby, Carsten Bormann
Autore Shelby Zach
Edizione [1st edition]
Pubbl/distr/stampa Chichester, U.K. : , : J. Wiley, , c2009
Descrizione fisica 1 online resource (245 p.)
Disciplina 621.38212
621.384
Altri autori (Persone) BormannCarsten
Collana Wiley series on communications networking & distributed systems
Soggetto topico Wireless Internet
Wireless communication systems - Standards
Low voltage systems
ISBN 1-282-37952-6
9786612379529
0-470-68621-9
0-470-68622-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto -- List of Figures ix -- List of Tables xiii -- Foreword xv -- Preface xvii -- Acknowledgments xix -- 1 Introduction 1 -- 1.1 The Wireless Embedded Internet 3 -- 1.1.1 Why 6LoWPAN? 4 -- 1.1.2 6LoWPAN history and standardization 6 -- 1.1.3 Relation of 6LoWPAN toother trends 8 -- 1.1.4 Applications of 6LoWPAN 9 -- 1.1.5 Example: facility management 11 -- 1.2 The 6LoWPAN Architecture 13 -- 1.3 6LoWPAN Introduction 15 -- 1.3.1 The protocol stack 16 -- 1.3.2 Link layers for 6LoWPAN 17 -- 1.3.3 Addressing 19 -- 1.3.4 Header format 20 -- 1.3.5 Bootstrapping 20 -- 1.3.6 Mesh topologies 22 -- 1.3.7 Internet integration 23 -- 1.4 Network Example 24 -- 2 The 6LoWPAN Format 27 -- 2.1 Functions of an Adaptation Layer 28 -- 2.2 Assumptions About the Link Layer 29 -- 2.2.1 Link-layer technologies beyond IEEE 802.15.4 29 -- 2.2.2 Link-layer service model 30 -- 2.2.3 Link-layer addressing 31 -- 2.2.4 Link-layer management and operation 32 -- 2.3 The Basic 6LoWPAN Format 32 -- 2.4 Addressing 34 -- 2.5 Forwarding and Routing 37 -- 2.5.1 L2 forwarding (“Mesh-Under”) 38 -- 2.5.2 L3 routing (“Route-Over”) 40 -- 2.6 Header Compression 41 -- 2.6.1 Stateless header compression 43 -- 2.6.2 Context-based header compression 45 -- 2.7 Fragmentation and Reassembly 52 -- 2.7.1 The fragmentation format 55 -- 2.7.2 Avoiding the fragmentation performance penalty 59 -- 2.8 Multicast 59 -- 3 Bootstrapping and Security 63 -- 3.1 Commissioning 64 -- 3.2 Neighbor Discovery 66 -- 3.2.1 Forming addresses 67 -- 3.2.2 Registration 69 -- 3.2.3 Registration collisions 73 -- 3.2.4 Multihop registration 77 -- 3.2.5 Node operation 80 -- 3.2.6 Router operation 81 -- 3.2.7 Edge router operation 82 -- 3.3 Security 83 -- 3.3.1 Security objectives and threat models 84 -- 3.3.2 Layer2 mechanisms 85 -- 3.3.3 Layer3 mechanisms 87 -- 3.3.4 Key management 89 -- 4 Mobility and Routing 91 -- 4.1 Mobility 92 -- 4.1.1 Mobility types 92 -- 4.1.2 Solutions for mobility 94 -- 4.1.3 Application methods 96 -- 4.1.4 Mobile IPv6 97.
4.1.5 Proxy Home Agent 100 -- 4.1.6 ProxyMIPv6 100 -- 4.1.7 NEMO 102 -- 4.2 Routing 104 -- 4.2.1 Overview 104 -- 4.2.2 The role of Neighbor Discovery 107 -- 4.2.3 Routing requirements 108 -- 4.2.4 Route metrics 109 -- 4.2.5 MANET routing protocols 111 -- 4.2.6 The ROLL routing protocol 114 -- 4.2.7 Border routing 119 -- 4.3 IPv4 Interconnectivity 120 -- 4.3.1 IPv6 transition 121 -- 4.3.2 IPv6-in-IPv4 tunneling 122 -- 5 Application Protocols 125 -- 5.1 Introduction 126 -- 5.2 Design Issues 127 -- 5.2.1 Linklayer 129 -- 5.2.2 Networking 130 -- 5.2.3 Host issues 130 -- 5.2.4 Compression 131 -- 5.2.5 Security 131 -- 5.3 Protocol Paradigms 132 -- 5.3.1 End-to-end 132 -- 5.3.2 Real-time streaming and sessions 132 -- 5.3.3 Publish/subscribe 133 -- 5.3.4 Web service paradigms 134 -- 5.4 Common Protocols 134 -- 5.4.1 Web service protocols 135 -- 5.4.2 MQ telemetry transport for sensor networks (MQTT-S) 137 -- 5.4.3 ZigBee compact application protocol (CAP) 139 -- 5.4.4 Service discovery 141 -- 5.4.5 Simple network management protocol (SNMP) 142 -- 5.4.6 Real-time transport and sessions 143 -- 5.4.7 Industry-specific protocols 144 -- 6 Using 6LoWPAN 149 -- 6.1 Chip Solutions 150 -- 6.1.1 Single-chip solutions 150 -- 6.1.2 Two-chip solutions 151 -- 6.1.3 Network processor solutions 151 -- 6.2 Protocol Stacks 152 -- 6.2.1 ContikianduIPv6 153 -- 6.2.2 TinyOS and BLIP 153 -- 6.2.3 Sensinode NanoStack 154 -- 6.2.4 Jennic6LoWPAN 155 -- 6.2.5 Nivis ISA100 155 -- 6.3 Application Development 156 -- 6.4 Edge Router Integration 159 -- 7 System Examples 163 -- 7.1 ISA100 Industrial Automation 164 -- 7.1.1 Motivation for industrial wireless sensor networks 164 -- 7.1.2 Complications of the industrial space 165 -- 7.1.3 The ISA100.11a standard 166 -- 7.1.4 ISA100.11a data link layer 169 -- 7.2 Wireless RFID Infrastructure 170 -- 7.2.1 Technical overview 172 -- 7.2.2 Benefits from 6LoWPAN 173 -- 7.3 Building Energy Savings and Management 174 -- 7.3.1 Network architecture 174 -- 7.3.2 Technical overview 174.
7.3.3 Benefits from 6LoWPAN 175 -- 8 Conclusion 177 -- A IPv6 Reference 181 -- A.1 Notation 181 -- A.2 Addressing 182 -- A.3 IPv6 Neighbor Discovery 184 -- A.4 IPv6 Stateless Address Autoconfiguration 188 -- B IEEE 802.15.4 Reference 191 -- B.1 Introduction 191 -- B.2 Overall Packet Format 192 -- B.3 MAC-layer Security 194 -- List of Abbreviations 195 -- Glossary 203 -- References 209 -- Index 219.
Record Nr. UNINA-9910831038703321
Shelby Zach  
Chichester, U.K. : , : J. Wiley, , c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Advanced transport protocols [[electronic resource] ] : designing the next generation / / Ernesto Exposito
Advanced transport protocols [[electronic resource] ] : designing the next generation / / Ernesto Exposito
Autore Exposito Ernesto
Pubbl/distr/stampa Hoboken, N.J., : ISTE Ltd/John Wiley and Sons Inc, 2013
Descrizione fisica 1 online resource (295 p.)
Disciplina 004.62
621.38212
Collana Networks and telecommunications series
Soggetto topico Computer network protocols
ISBN 1-118-58020-6
1-299-13988-4
1-118-58017-6
1-118-57832-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Title Page; Contents; Preface; Chapter 1. Introduction; 1.1. Evolution of application and network layers; 1.2. Summary of contributions; 1.3. Book structure; Chapter 2. Transport Protocols State of the Art; 2.1. Introduction; 2.2. Transport layer reference models; 2.2.1. OSI model; 2.2.2. TCP/IP model; 2.2.3. Transport layer; 2.2.4. Transport services; 2.3. Transport functions and mechanisms; 2.3.1. Error control; 2.3.2. Congestion control; 2.3.3. Summary; 2.4. IETF transport protocols; 2.4.1. TCP; 2.4.2. UDP; 2.4.3. SCTP; 2.4.4. DCCP; 2.4.5. MPTCP; 2.5. Summary
Chapter 3. Semantic Modeling of Transport Protocols and Services3.1. Introduction; 3.2. Model and semantic-driven architecture; 3.2.1. Model-driven architecture; 3.2.2. Ontology-driven architecture; 3.3. Design of a QoS ontology framework; 3.3.1. Quality of Service definition; 3.3.2. ITU-T X.641 framework; 3.3.3. Service; 3.3.4. Service user; 3.3.5. Service provider; 3.3.6. QoS characteristic; 3.3.7. QoS requirement; 3.3.8. QoS parameter; 3.3.9. QoS function; 3.3.10. QoS mechanism; 3.4. Design of a QoS transport ontology for the next generation transport layer; 3.4.1. Ontology representation
3.4.2. X.641 QoS ontology3.4.3. QoS transport requirements; 3.4.4. QoS transport mechanisms, functions and protocols; 3.5. QoS transport ontology specification; 3.5.1. TCP semantic description; 3.5.2. UDP semantic description; 3.5.3. SCTP semantic description; 3.5.4. DCCP semantic description; 3.5.5. MPTCP semantic description; 3.6. Usage of the QoS transport ontology specification; 3.6.1. QoS transport services characterization; 3.6.2. Transport components and transport composite characterization; 3.7. Summary; Chapter 4. Model-Driven Design Methodology of TransportMechanisms and Functions
4.1. Introduction4.2. Software engineering process; 4.2.1. Unified Modeling Language; 4.2.2. UML 2.4.1-based methodology; 4.2.3. UML diagrams; 4.2.4. Summary and additional resources; 4.3. Applying the UML-based software engineering methodology for transport services; 4.3.1. Contextual model of transport functions and mechanisms; 4.3.2. Analysis of requirements guiding transport functions; 4.3.4. Design of transport functions and mechanisms; 4.4. Summary; Chapter 5. Model-Driven Specification and Validationof Error Control Transport Mechanisms and Functions; 5.1. Introduction
5.2. Design of an error control function5.2.1. Behavior specification of the sending side protocol entity; 5.2.2. Behavior specification of the receiving side protocol entity; 5.3. Functional validation of the error control function; 5.3.1. Functional validation using a perfect medium; 5.3.2. Functional validation using an imperfect medium; 5.4. A new design of the error control function; 5.4.1. Functional validation using an imperfect medium; 5.4.2. More open questions; 5.5. A model-driven simulation environment; 5.5.1. Model-driven simulation framework
5.5.2. Model-driven network simulator package
Record Nr. UNINA-9910141493503321
Exposito Ernesto  
Hoboken, N.J., : ISTE Ltd/John Wiley and Sons Inc, 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Advanced transport protocols : designing the next generation / / Ernesto Exposito
Advanced transport protocols : designing the next generation / / Ernesto Exposito
Autore Exposito Ernesto
Edizione [1st ed.]
Pubbl/distr/stampa Hoboken, N.J., : ISTE Ltd/John Wiley and Sons Inc, 2013
Descrizione fisica 1 online resource (295 p.)
Disciplina 004.62
621.38212
Collana Networks and telecommunications series
Soggetto topico Computer network protocols
ISBN 1-118-58020-6
1-299-13988-4
1-118-58017-6
1-118-57832-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Title Page; Contents; Preface; Chapter 1. Introduction; 1.1. Evolution of application and network layers; 1.2. Summary of contributions; 1.3. Book structure; Chapter 2. Transport Protocols State of the Art; 2.1. Introduction; 2.2. Transport layer reference models; 2.2.1. OSI model; 2.2.2. TCP/IP model; 2.2.3. Transport layer; 2.2.4. Transport services; 2.3. Transport functions and mechanisms; 2.3.1. Error control; 2.3.2. Congestion control; 2.3.3. Summary; 2.4. IETF transport protocols; 2.4.1. TCP; 2.4.2. UDP; 2.4.3. SCTP; 2.4.4. DCCP; 2.4.5. MPTCP; 2.5. Summary
Chapter 3. Semantic Modeling of Transport Protocols and Services3.1. Introduction; 3.2. Model and semantic-driven architecture; 3.2.1. Model-driven architecture; 3.2.2. Ontology-driven architecture; 3.3. Design of a QoS ontology framework; 3.3.1. Quality of Service definition; 3.3.2. ITU-T X.641 framework; 3.3.3. Service; 3.3.4. Service user; 3.3.5. Service provider; 3.3.6. QoS characteristic; 3.3.7. QoS requirement; 3.3.8. QoS parameter; 3.3.9. QoS function; 3.3.10. QoS mechanism; 3.4. Design of a QoS transport ontology for the next generation transport layer; 3.4.1. Ontology representation
3.4.2. X.641 QoS ontology3.4.3. QoS transport requirements; 3.4.4. QoS transport mechanisms, functions and protocols; 3.5. QoS transport ontology specification; 3.5.1. TCP semantic description; 3.5.2. UDP semantic description; 3.5.3. SCTP semantic description; 3.5.4. DCCP semantic description; 3.5.5. MPTCP semantic description; 3.6. Usage of the QoS transport ontology specification; 3.6.1. QoS transport services characterization; 3.6.2. Transport components and transport composite characterization; 3.7. Summary; Chapter 4. Model-Driven Design Methodology of TransportMechanisms and Functions
4.1. Introduction4.2. Software engineering process; 4.2.1. Unified Modeling Language; 4.2.2. UML 2.4.1-based methodology; 4.2.3. UML diagrams; 4.2.4. Summary and additional resources; 4.3. Applying the UML-based software engineering methodology for transport services; 4.3.1. Contextual model of transport functions and mechanisms; 4.3.2. Analysis of requirements guiding transport functions; 4.3.4. Design of transport functions and mechanisms; 4.4. Summary; Chapter 5. Model-Driven Specification and Validationof Error Control Transport Mechanisms and Functions; 5.1. Introduction
5.2. Design of an error control function5.2.1. Behavior specification of the sending side protocol entity; 5.2.2. Behavior specification of the receiving side protocol entity; 5.3. Functional validation of the error control function; 5.3.1. Functional validation using a perfect medium; 5.3.2. Functional validation using an imperfect medium; 5.4. A new design of the error control function; 5.4.1. Functional validation using an imperfect medium; 5.4.2. More open questions; 5.5. A model-driven simulation environment; 5.5.1. Model-driven simulation framework
5.5.2. Model-driven network simulator package
Record Nr. UNINA-9910819253103321
Exposito Ernesto  
Hoboken, N.J., : ISTE Ltd/John Wiley and Sons Inc, 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
CVOICE 8.0 [[electronic resource] ] : implementing Cisco Unified Communications Voice over IP and QoS v8.0 : study guide / / Andrew Froehlich
CVOICE 8.0 [[electronic resource] ] : implementing Cisco Unified Communications Voice over IP and QoS v8.0 : study guide / / Andrew Froehlich
Autore Froehlich Andrew G
Edizione [1st ed.]
Pubbl/distr/stampa Indianapolis, : Wiley Pub., Inc., 2011
Descrizione fisica 1 online resource (626 p.)
Disciplina 621.38212
Soggetto topico Internet telephony - Examinations
Electronic data processing personnel - Certification
Soggetto genere / forma Electronic books.
ISBN 1-283-29507-5
9786613295071
1-118-18143-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto CVOICE 8.0: Implementing Cisco Unified Communications Voice over IP and QoS v8.0; Contents; Introduction; Assessment Test; Chapter 1: An Introduction to Traditional Telephony and Cisco Unified Communications; Understanding Traditional Telephony Components; Telephony Edge Devices; Phone Switches; The Central Office; The Local Loop; Trunks; National and International Calling PSTN; Understanding Private Telephony Phone Systems; Key System; PBX; Understanding the Unified Communications Model; Endpoints; Applications; Call Processing Agents; Network Infrastructure
Unified Communications Deployment Models The Centralized Services Deployment Model; The Distributed Services Deployment Model; The Inter-Networking of Services Deployment Model; The Geographical Diversity Deployment Model; Summary; Exam Essentials; Written Lab 1.1; Review Questions; Answers to Review Questions; Answers to Written Lab 1.1; Chapter 2: Understanding Analog and Digital Voice; Understanding Analog Voice Ports and Signaling; Analog Voice Port Types; Analog Voice Signaling; Basic Configuration of Analog Voice Ports; Understanding Digital Voice Ports and Signaling
An Overview of the Analog-to-Digital Conversion Process Digital Voice Port Types; Digital Voice Multiplexing, Framing, and Physical Transport; Digital Voice Signaling; Basic Configuration of Digital Voice Ports; Summary; Exam Essentials; Written Lab 2.1; Review Questions; Answers to Review Questions; Answers to Written Lab 2.1; Chapter 3: VoIP Operation and Protocols; Voice Media Transmission Protocols; Introduction to the Real-Time Transport Protocol; Introduction to the Real-time Transport Control Protocol; Introduction to Compressed RTP; Introduction to Secure RTP
Voice Gateway Signaling ProtocolsH. 323; Session Initiation Protocol; Media Gateway Control Protocol; Skinny Client Control Protocol; Voice Gateway Signaling Protocol Comparison; An Introduction to Gatekeepers and Other H. 323 Components; Gatekeeper; H. 323 Proxy Server; H. 323 Multipoint Control Unit; A Typical H. 323 Network; Choosing the Appropriate Voice Gateway Signaling Protocol; Summary; Exam Essentials; Written Lab 3.1; Review Questions; Answers to Review Questions; Answers to Written Lab 3.1; Chapter 4: The VoIP Path-Selection Process
Understanding the Dial Plan Path-Selection Process Understanding Voice Call Types; Path Selection and Call Routing; POTS and VoIP Dial Peers; Call Legs; Path-Selection Strategies; Introduction to PSTN and Private Numbering Plans; Using Wildcards to Simplify Dial-Peer Configurations; Site-Code Dialing; Dial-Plan Digit Manipulation; Digit Stripping; Forwarding the Last X Digits; Prefix Adding; Number Substitution; Translation Rules and Profiles; Verifying Dial-Plan Configurations; Summary; Exam Essentials; Written Lab 4.1; Review Questions; Answers to Review Questions; Answers to Written Lab 4.1
Chapter 5: VoIP Design Options
Record Nr. UNINA-9910461427803321
Froehlich Andrew G  
Indianapolis, : Wiley Pub., Inc., 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
CVOICE 8.0 [[electronic resource] ] : implementing Cisco Unified Communications Voice over IP and QoS v8.0 : study guide / / Andrew Froehlich
CVOICE 8.0 [[electronic resource] ] : implementing Cisco Unified Communications Voice over IP and QoS v8.0 : study guide / / Andrew Froehlich
Autore Froehlich Andrew G
Edizione [1st ed.]
Pubbl/distr/stampa Indianapolis, : Wiley Pub., Inc., 2011
Descrizione fisica 1 online resource (626 p.)
Disciplina 621.38212
Soggetto topico Internet telephony - Examinations
Electronic data processing personnel - Certification
ISBN 1-283-29507-5
9786613295071
1-118-18143-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto CVOICE 8.0: Implementing Cisco Unified Communications Voice over IP and QoS v8.0; Contents; Introduction; Assessment Test; Chapter 1: An Introduction to Traditional Telephony and Cisco Unified Communications; Understanding Traditional Telephony Components; Telephony Edge Devices; Phone Switches; The Central Office; The Local Loop; Trunks; National and International Calling PSTN; Understanding Private Telephony Phone Systems; Key System; PBX; Understanding the Unified Communications Model; Endpoints; Applications; Call Processing Agents; Network Infrastructure
Unified Communications Deployment Models The Centralized Services Deployment Model; The Distributed Services Deployment Model; The Inter-Networking of Services Deployment Model; The Geographical Diversity Deployment Model; Summary; Exam Essentials; Written Lab 1.1; Review Questions; Answers to Review Questions; Answers to Written Lab 1.1; Chapter 2: Understanding Analog and Digital Voice; Understanding Analog Voice Ports and Signaling; Analog Voice Port Types; Analog Voice Signaling; Basic Configuration of Analog Voice Ports; Understanding Digital Voice Ports and Signaling
An Overview of the Analog-to-Digital Conversion Process Digital Voice Port Types; Digital Voice Multiplexing, Framing, and Physical Transport; Digital Voice Signaling; Basic Configuration of Digital Voice Ports; Summary; Exam Essentials; Written Lab 2.1; Review Questions; Answers to Review Questions; Answers to Written Lab 2.1; Chapter 3: VoIP Operation and Protocols; Voice Media Transmission Protocols; Introduction to the Real-Time Transport Protocol; Introduction to the Real-time Transport Control Protocol; Introduction to Compressed RTP; Introduction to Secure RTP
Voice Gateway Signaling ProtocolsH. 323; Session Initiation Protocol; Media Gateway Control Protocol; Skinny Client Control Protocol; Voice Gateway Signaling Protocol Comparison; An Introduction to Gatekeepers and Other H. 323 Components; Gatekeeper; H. 323 Proxy Server; H. 323 Multipoint Control Unit; A Typical H. 323 Network; Choosing the Appropriate Voice Gateway Signaling Protocol; Summary; Exam Essentials; Written Lab 3.1; Review Questions; Answers to Review Questions; Answers to Written Lab 3.1; Chapter 4: The VoIP Path-Selection Process
Understanding the Dial Plan Path-Selection Process Understanding Voice Call Types; Path Selection and Call Routing; POTS and VoIP Dial Peers; Call Legs; Path-Selection Strategies; Introduction to PSTN and Private Numbering Plans; Using Wildcards to Simplify Dial-Peer Configurations; Site-Code Dialing; Dial-Plan Digit Manipulation; Digit Stripping; Forwarding the Last X Digits; Prefix Adding; Number Substitution; Translation Rules and Profiles; Verifying Dial-Plan Configurations; Summary; Exam Essentials; Written Lab 4.1; Review Questions; Answers to Review Questions; Answers to Written Lab 4.1
Chapter 5: VoIP Design Options
Record Nr. UNINA-9910789715103321
Froehlich Andrew G  
Indianapolis, : Wiley Pub., Inc., 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
CVOICE 8.0 : implementing Cisco Unified Communications Voice over IP and QoS v8.0 : study guide / / Andrew Froehlich
CVOICE 8.0 : implementing Cisco Unified Communications Voice over IP and QoS v8.0 : study guide / / Andrew Froehlich
Autore Froehlich Andrew G
Edizione [1st ed.]
Pubbl/distr/stampa Indianapolis, : Wiley Pub., Inc., 2011
Descrizione fisica 1 online resource (626 p.)
Disciplina 621.38212
Soggetto topico Internet telephony - Examinations
Electronic data processing personnel - Certification
ISBN 1-283-29507-5
9786613295071
1-118-18143-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto CVOICE 8.0: Implementing Cisco Unified Communications Voice over IP and QoS v8.0; Contents; Introduction; Assessment Test; Chapter 1: An Introduction to Traditional Telephony and Cisco Unified Communications; Understanding Traditional Telephony Components; Telephony Edge Devices; Phone Switches; The Central Office; The Local Loop; Trunks; National and International Calling PSTN; Understanding Private Telephony Phone Systems; Key System; PBX; Understanding the Unified Communications Model; Endpoints; Applications; Call Processing Agents; Network Infrastructure
Unified Communications Deployment Models The Centralized Services Deployment Model; The Distributed Services Deployment Model; The Inter-Networking of Services Deployment Model; The Geographical Diversity Deployment Model; Summary; Exam Essentials; Written Lab 1.1; Review Questions; Answers to Review Questions; Answers to Written Lab 1.1; Chapter 2: Understanding Analog and Digital Voice; Understanding Analog Voice Ports and Signaling; Analog Voice Port Types; Analog Voice Signaling; Basic Configuration of Analog Voice Ports; Understanding Digital Voice Ports and Signaling
An Overview of the Analog-to-Digital Conversion Process Digital Voice Port Types; Digital Voice Multiplexing, Framing, and Physical Transport; Digital Voice Signaling; Basic Configuration of Digital Voice Ports; Summary; Exam Essentials; Written Lab 2.1; Review Questions; Answers to Review Questions; Answers to Written Lab 2.1; Chapter 3: VoIP Operation and Protocols; Voice Media Transmission Protocols; Introduction to the Real-Time Transport Protocol; Introduction to the Real-time Transport Control Protocol; Introduction to Compressed RTP; Introduction to Secure RTP
Voice Gateway Signaling ProtocolsH. 323; Session Initiation Protocol; Media Gateway Control Protocol; Skinny Client Control Protocol; Voice Gateway Signaling Protocol Comparison; An Introduction to Gatekeepers and Other H. 323 Components; Gatekeeper; H. 323 Proxy Server; H. 323 Multipoint Control Unit; A Typical H. 323 Network; Choosing the Appropriate Voice Gateway Signaling Protocol; Summary; Exam Essentials; Written Lab 3.1; Review Questions; Answers to Review Questions; Answers to Written Lab 3.1; Chapter 4: The VoIP Path-Selection Process
Understanding the Dial Plan Path-Selection Process Understanding Voice Call Types; Path Selection and Call Routing; POTS and VoIP Dial Peers; Call Legs; Path-Selection Strategies; Introduction to PSTN and Private Numbering Plans; Using Wildcards to Simplify Dial-Peer Configurations; Site-Code Dialing; Dial-Plan Digit Manipulation; Digit Stripping; Forwarding the Last X Digits; Prefix Adding; Number Substitution; Translation Rules and Profiles; Verifying Dial-Plan Configurations; Summary; Exam Essentials; Written Lab 4.1; Review Questions; Answers to Review Questions; Answers to Written Lab 4.1
Chapter 5: VoIP Design Options
Altri titoli varianti Implementing Cisco Unified Communications Voice over IP and QoS v8.0 study guide
Record Nr. UNINA-9910807660803321
Froehlich Andrew G  
Indianapolis, : Wiley Pub., Inc., 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Deploying IPv6 in broadband access networks / / Adeel Ahmed, Salman Asadullah
Deploying IPv6 in broadband access networks / / Adeel Ahmed, Salman Asadullah
Autore Ahmed Adeel
Edizione [1st edition]
Pubbl/distr/stampa Hoboken, New Jersey : , : Wiley, , c2009
Descrizione fisica 1 online resource (xviii, 213 p. ) : ill
Disciplina 621.38212
Altri autori (Persone) AsadullahSalman
Soggetto topico TCP/IP (Computer network protocol)
Broadband communication systems
ISBN 1-118-21069-7
0-470-50844-2
1-282-31689-3
9786612316890
0-470-50843-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto IPv6 drivers in broadband networks -- IPv6 overview -- Deploying IPv6 in cable networks -- IPv6 deployment in DSL, ETTH, and wireless networks -- Configuring and troubleshooting IPv6 on gateway routers and hosts -- Configuring and troubleshooting IPv6 on edge routers -- Configuring and troubleshooting IPv6 on provisioning servers -- Appendix A : IPv6 case study -- Appendix B : DHCPv6 message types and option codes.
Record Nr. UNINA-9910208844403321
Ahmed Adeel  
Hoboken, New Jersey : , : Wiley, , c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Deploying IPv6 in broadband access networks / / Adeel Ahmed, Salman Asadullah
Deploying IPv6 in broadband access networks / / Adeel Ahmed, Salman Asadullah
Autore Ahmed Adeel
Edizione [1st edition]
Pubbl/distr/stampa Hoboken, New Jersey : , : Wiley, , c2009
Descrizione fisica 1 online resource (xviii, 213 p. ) : ill
Disciplina 621.38212
Altri autori (Persone) AsadullahSalman
Soggetto topico TCP/IP (Computer network protocol)
Broadband communication systems
ISBN 1-118-21069-7
0-470-50844-2
1-282-31689-3
9786612316890
0-470-50843-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto IPv6 drivers in broadband networks -- IPv6 overview -- Deploying IPv6 in cable networks -- IPv6 deployment in DSL, ETTH, and wireless networks -- Configuring and troubleshooting IPv6 on gateway routers and hosts -- Configuring and troubleshooting IPv6 on edge routers -- Configuring and troubleshooting IPv6 on provisioning servers -- Appendix A : IPv6 case study -- Appendix B : DHCPv6 message types and option codes.
Record Nr. UNINA-9910830094203321
Ahmed Adeel  
Hoboken, New Jersey : , : Wiley, , c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
I-mode strategy [[electronic resource] /] / Takeshi Natsuno ; translated by Ruth South McCreery
I-mode strategy [[electronic resource] /] / Takeshi Natsuno ; translated by Ruth South McCreery
Autore Natsuno Takeshi
Pubbl/distr/stampa Chichester ; ; Hoboken, NJ, : Wiley, c2003
Descrizione fisica 1 online resource (190 p.)
Disciplina 005.276
621.38212
Soggetto topico Cell phone services industry - Japan
Wireless Internet
Soggetto genere / forma Electronic books.
ISBN 1-280-27089-6
9786610270897
0-470-34179-3
0-470-85805-2
0-470-85804-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto i-mode Strategy; About the Author; Foreword to the Japanese Edition; Foreword to the English-language Edition; Contents; Color Plates; 1 Success; 1.1 IT Businesses Grow far More Than Expected or do not Grow at All; 1.1.1 The Pace Outstripped Our Expectations; 1.1.1.1 One Million in 20 Days: 50,000 New Subscribers a Day; 1.1.1.2 One-Third of All Internet Users; 1.2 i-mode: Born with a Sense of Crisis; 1.2.1 A Multidisciplinary Team; 1.2.2 Towards the Second S-Curve; 1.2.2.1 From Volume to Value; 1.3 Evolution of a Text-Based e-Mail Culture; 1.3.1 From One-Way to Interactive; 1.4 Beyond Talk
1.6.3.1 Lightness Ceased to be the Decisive Feature1.6.4 Uniquely Successful: Service Providers in Other Countries Not Doing Well; 1.7 All Eyes on DoCoMo; 2 Concepts; 2.1 Why Has Our Success in the IT Business Been so Overwhelming?; 2.1.1 It is no Longer a Telecom Age; 2.2 Differences in Platform are Meaningless; 2.2.1 Customer Participation Boosts the Attractiveness of Services; 2.2.1.1 Customers and Service Providers are in the Same Team - That is Internet Thinking; 2.2.2 Alliances Create New Markets; 2.2.3 Opportunities for Existing Businesses; 2.3 Why is the Win so Overwhelming?
2.4 Life Today: Complex Systems2.4.1 Self-Organization in Geese; 2.4.2 Evaluating a Service in Terms of the Service as a Whole; 2.4.3 One Technology Cannot Lead a New Service; 2.4.4 DoCoMo's Role is to Coordinate the System as a Whole; 3 Practice; 3.1 Most People are Conservative; They Reject What Seems too New; 3.1.1 There Will be a 'Wallet PC' Someday; 3.1.1.1 Add-Ons Stimulated the Appetite to Develop; 3.1.1.2 One Industry Alone Could not do It; 3.1.2 How to Kick-Start the Process?; 3.1.2.1 Language Selection: A Keystroke; 3.1.2.2 Our De Facto Standard Technology Lures Content
3.1.2.3 A Lesson from a US Study3.1.2.4 Kindergarten English? or French?; 3.1.2.5 Thousands of Ringtones in No Time; 3.1.2.6 Unusual Phones do not Sell; 3.1.2.7 It's a Mobile Phone, Stupid; 3.1.2.8 Using Existing Web Servers; 3.1.2.9 Minimizing the Need to Change Systems; 3.1.3 A Business Concept That Attracts Partners in Droves; 3.2 DoCoMo's Role: Two Points Only; 3.3 Sharing the Revenues Matters; 3.4 Keep Service Providers Motivated; 3.4.1 Four Conditions for Attractive Content; 3.4.2 Nationwide Meetings Help Develop an Eye for Content; 3.5 What is Internet-Style Marketing?
3.5.1 The Concept Behind the Commercial with Hirosue
Record Nr. UNINA-9910143226903321
Natsuno Takeshi  
Chichester ; ; Hoboken, NJ, : Wiley, c2003
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui