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3DTV content capture, encoding and transmission : building the transport infrastructure for commercial services / / Daniel Minoli
| 3DTV content capture, encoding and transmission : building the transport infrastructure for commercial services / / Daniel Minoli |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | [Hoboken, New Jersey] : , : Wiley, , 2010 |
| Descrizione fisica | 1 online resource (246 p.) |
| Disciplina | 621.388 |
| Soggetto topico |
3-D television
Television broadcasting |
| ISBN |
1-118-06026-1
1-282-78273-8 9786612782732 0-470-87422-8 0-470-87269-1 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface -- About the Author -- 1 Introduction -- 1.1 Overview -- 1.2 Background -- 1.2.1 Adoption of 3DTV in the Marketplace -- 1.2.2 Opportunities and Challenges for 3DTV -- 1.3 Course of Investigation -- References -- Appendix A1: Some Recent Industry Events Related to 3DTV -- 2 3DV and 3DTV Principles -- 2.1 Human Visual System -- 2.1.1 Depth/Binocular Cues -- 2.1.2 Accommodation -- 2.1.3 Parallax -- 2.2 3DV/3DTV Stereoscopic Principles -- 2.3 Autostereographic Approaches -- References -- 3 3DTV/3DV Encoding Approaches -- 3.1 3D Mastering Methods -- 3.1.1 Frame Mastering for Conventional Stereo Video (CSV) -- 3.1.2 Compression for Conventional Stereo Video (CSV) -- 3.2 More Advanced Methods -- 3.2.1 Video Plus Depth (V + D) -- 3.2.2 Multi-View Video Plus Depth (MV + D) -- 3.2.3 Layered Depth Video (LDV) -- 3.3 Short-term Approach for Signal Representation and Compression -- 3.4 Displays -- References -- Appendix A3: Color Encoding -- Appendix B3: Additional Details on Video Encoding Standards -- B3.1 Multiple-View Video Coding (MVC) -- B3.2 Scalable Video Coding (SVC) -- B3.3 Conclusion -- 4 3DTV/3DV Transmission Approaches and Satellite Delivery -- 4.1 Overview of Basic Transport Approaches -- 4.2 DVB -- 4.3 DVB-H -- References -- Appendix A4: Brief Overview of MPEG Multiplexing and DVB Support -- A4.1 Packetized Elementary Stream (PES) Packets and Transport Stream (TS) Unit(s) -- A4.2 DVB (Digital Video Broadcasting)-Based Transport in Packet Networks -- A4.3 MPEG-4 and/or Other Data Support -- 5 3DTV/3DV IPTV Transmission Approaches -- 5.1 IPTV Concepts -- 5.1.1 Multicast Operation -- 5.1.2 Backbone -- 5.1.3 Access -- 5.2 IPv6 Concepts -- References -- Appendix A5: IPv6 Basics -- A5.1 IPv6 Overview -- A5.2 Advocacy for IPv6 Deployment-Example -- 6 3DTV Standardization and Related Activities -- 6.1 Moving Picture Experts Group (MPEG) -- 6.1.1 Overview -- 6.1.2 Completed Work -- 6.1.3 New Initiatives -- 6.2 MPEG Industry Forum (MPEGIF) -- 6.3 Society of Motion Picture and Television Engineers (SMPTE) 3D Home Entertainment Task Force.
6.4 Rapporteur Group On 3DTV of ITU-R Study Group 6 -- 6.5 TM-3D-SM Group of Digital Video Broadcast (DVB) -- 6.6 Consumer Electronics Association (CEA) -- 6.7 HDMI Licensing, LLC -- 6.8 Blu-ray Disc Association (BDA) -- 6.9 Other Advocacy Entities -- 6.9.1 3D@Home Consortium -- 6.9.2 3D Consortium (3DC) -- 6.9.3 European Information Society Technologies (IST) Project "Advanced Three-Dimensional Television System Technologies" (ATTEST) -- 6.9.4 3D4YOU -- 6.9.5 3DPHONE -- References -- Glossary -- Index. |
| Record Nr. | UNINA-9910140803403321 |
Minoli Daniel <1952->
|
||
| [Hoboken, New Jersey] : , : Wiley, , 2010 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
3DTV content capture, encoding and transmission : building the transport infrastructure for commercial services / / Daniel Minoli
| 3DTV content capture, encoding and transmission : building the transport infrastructure for commercial services / / Daniel Minoli |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | [Hoboken, New Jersey] : , : Wiley, , 2010 |
| Descrizione fisica | 1 online resource (246 p.) |
| Disciplina | 621.388 |
| Soggetto topico |
3-D television
Television broadcasting |
| ISBN |
1-118-06026-1
1-282-78273-8 9786612782732 0-470-87422-8 0-470-87269-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface -- About the Author -- 1 Introduction -- 1.1 Overview -- 1.2 Background -- 1.2.1 Adoption of 3DTV in the Marketplace -- 1.2.2 Opportunities and Challenges for 3DTV -- 1.3 Course of Investigation -- References -- Appendix A1: Some Recent Industry Events Related to 3DTV -- 2 3DV and 3DTV Principles -- 2.1 Human Visual System -- 2.1.1 Depth/Binocular Cues -- 2.1.2 Accommodation -- 2.1.3 Parallax -- 2.2 3DV/3DTV Stereoscopic Principles -- 2.3 Autostereographic Approaches -- References -- 3 3DTV/3DV Encoding Approaches -- 3.1 3D Mastering Methods -- 3.1.1 Frame Mastering for Conventional Stereo Video (CSV) -- 3.1.2 Compression for Conventional Stereo Video (CSV) -- 3.2 More Advanced Methods -- 3.2.1 Video Plus Depth (V + D) -- 3.2.2 Multi-View Video Plus Depth (MV + D) -- 3.2.3 Layered Depth Video (LDV) -- 3.3 Short-term Approach for Signal Representation and Compression -- 3.4 Displays -- References -- Appendix A3: Color Encoding -- Appendix B3: Additional Details on Video Encoding Standards -- B3.1 Multiple-View Video Coding (MVC) -- B3.2 Scalable Video Coding (SVC) -- B3.3 Conclusion -- 4 3DTV/3DV Transmission Approaches and Satellite Delivery -- 4.1 Overview of Basic Transport Approaches -- 4.2 DVB -- 4.3 DVB-H -- References -- Appendix A4: Brief Overview of MPEG Multiplexing and DVB Support -- A4.1 Packetized Elementary Stream (PES) Packets and Transport Stream (TS) Unit(s) -- A4.2 DVB (Digital Video Broadcasting)-Based Transport in Packet Networks -- A4.3 MPEG-4 and/or Other Data Support -- 5 3DTV/3DV IPTV Transmission Approaches -- 5.1 IPTV Concepts -- 5.1.1 Multicast Operation -- 5.1.2 Backbone -- 5.1.3 Access -- 5.2 IPv6 Concepts -- References -- Appendix A5: IPv6 Basics -- A5.1 IPv6 Overview -- A5.2 Advocacy for IPv6 Deployment-Example -- 6 3DTV Standardization and Related Activities -- 6.1 Moving Picture Experts Group (MPEG) -- 6.1.1 Overview -- 6.1.2 Completed Work -- 6.1.3 New Initiatives -- 6.2 MPEG Industry Forum (MPEGIF) -- 6.3 Society of Motion Picture and Television Engineers (SMPTE) 3D Home Entertainment Task Force.
6.4 Rapporteur Group On 3DTV of ITU-R Study Group 6 -- 6.5 TM-3D-SM Group of Digital Video Broadcast (DVB) -- 6.6 Consumer Electronics Association (CEA) -- 6.7 HDMI Licensing, LLC -- 6.8 Blu-ray Disc Association (BDA) -- 6.9 Other Advocacy Entities -- 6.9.1 3D@Home Consortium -- 6.9.2 3D Consortium (3DC) -- 6.9.3 European Information Society Technologies (IST) Project "Advanced Three-Dimensional Television System Technologies" (ATTEST) -- 6.9.4 3D4YOU -- 6.9.5 3DPHONE -- References -- Glossary -- Index. |
| Record Nr. | UNINA-9910826685703321 |
|
Minoli Daniel <1952->
|
||
| [Hoboken, New Jersey] : , : Wiley, , 2010 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Building the internet of things with IPv6 and MIPv6 : the evolving world of M2m communications / / Daniel Minoli
| Building the internet of things with IPv6 and MIPv6 : the evolving world of M2m communications / / Daniel Minoli |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , [2013] |
| Descrizione fisica | 1 online resource (391 p.) |
| Disciplina | 004.6/2 |
| Soggetto topico |
Embedded Internet devices
Internet of things TCP/IP (Computer network protocol) Mobile computing |
| ISBN |
1-118-64713-0
1-118-64705-X 1-118-64714-9 |
| Classificazione | COM060000 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- PREFACE xiii / / ABOUT THE AUTHOR xvii -- 1 WHAT IS THE INTERNET OF THINGS? 1 -- 1.1 Overview and Motivations 1 -- 1.2 Examples of Applications 12 -- 1.3 IPv6 Role 17 -- 1.4 Areas of Development and Standardization 20 -- 1.5 Scope of the Present Investigation 23 -- Appendix 1.A: Some Related Literature 25 -- References 26 -- 2 INTERNET OF THINGS DEFINITIONS AND FRAMEWORKS 28 -- 2.1 IoT Definitions 28 -- 2.1.1 General Observations 28 -- 2.1.2 ITU-T Views 31 -- 2.1.3 Working Definition 33 -- 2.2 IoT Frameworks 38 -- 2.3 Basic Nodal Capabilities 44 -- References 46 -- 3 INTERNET OF THINGS APPLICATION EXAMPLES 48 -- 3.1 Overview 49 -- 3.2 Smart MeteringAdvanced Metering Infrastructure 52 -- 3.3 e-HealthBody Area Networks 55 -- 3.4 City Automation 62 -- 3.5 Automotive Applications 64 -- 3.6 Home Automation 67 -- 3.7 Smart Cards 70 -- 3.8 Tracking (Following and Monitoring Mobile Objects) 77 -- 3.9 Over-The-Air-Passive SurveillanceRing of Steel 79 -- 3.10 Control Application Examples 86 -- 3.11 Myriad Other Applications 93 -- References 94 -- 4 FUNDAMENTAL IoT MECHANISMS AND KEY TECHNOLOGIES 97 -- 4.1 Identification of IoT Objects and Services 97 -- 4.2 Structural Aspects of the IoT 101 -- 4.2.1 Environment Characteristics 101 -- 4.2.2 Traffic Characteristics 102 -- 4.2.3 Scalability 102 -- 4.2.4 Interoperability 103 -- 4.2.5 Security and Privacy 103 -- 4.2.6 Open Architecture 103 -- 4.3 Key IoT Technologies 103 -- 4.3.1 Device Intelligence 103 -- 4.3.2 Communication Capabilities 104 -- 4.3.3 Mobility Support 104 -- 4.3.4 Device Power 105 -- 4.3.5 Sensor Technology 107 -- 4.3.6 RFID Technology 111 -- 4.3.7 Satellite Technology 118 -- References 119 -- 5 EVOLVING IoT STANDARDS 120 -- 5.1 Overview and Approaches 120 -- 5.2 IETF IPv6 Routing Protocol for RPL Roll 123 -- 5.3 Constrained Application Protocol (CoAP) 126 -- 5.3.1 Background 126 -- 5.3.2 Messaging Model 129 -- 5.3.3 RequestResponse Model 129 -- 5.3.4 Intermediaries and Caching 129 -- 5.4 Representational State Transfer (REST) 130.
5.5 ETSI M2M 130 -- 5.6 Third-Generation Partnership Project Service Requirements for Machine-Type Communications 131 -- 5.6.1 Approach 131 -- 5.6.2 Architectural Reference Model for MTC 134 -- 5.7 CENELEC 135 -- 5.8 IETF IPv6 Over Lowpower WPAN (6LoWPAN) 137 -- 5.9 ZigBee IP (ZIP) 137 -- 5.10 IP in Smart Objects (IPSO) 138 -- Appendix 5.A: Legacy Supervisory Control and Data Acquisition (SCADA) Systems 138 -- References 142 -- 6 LAYER 12 CONNECTIVITY: WIRELESS TECHNOLOGIES FOR THE IoT 144 -- 6.1 WPAN Technologies for IoTM2M 145 -- 6.1.1 ZigbeeIEEE 802.15.4 155 -- 6.1.2 Radio Frequency for Consumer Electronics (RF4CE) 170 -- 6.1.3 Bluetooth and its Low-Energy Profile 170 -- 6.1.4 IEEE 802.15.6 WBANs 180 -- 6.1.5 IEEE 802.15 WPAN TG4j MBANs 181 -- 6.1.6 ETSI TR 101 557 184 -- 6.1.7 NFC 187 -- 6.1.8 Dedicated Short-Range Communications (DSRC) and Related Protocols 189 -- 6.1.9 Comparison of WPAN Technologies 192 -- 6.2 Cellular and Mobile Network Technologies for IoTM2M 195 -- 6.2.1 Overview and Motivations 195 -- 6.2.2 Universal Mobile Telecommunications System 196 -- 6.2.3 LTE 197 -- Appendix 6.A: Non-Wireless Technologies for IoT: Powerline Communications 209 -- References 216 -- 7 LAYER 3 CONNECTIVITY: IPv6 TECHNOLOGIES FOR THE IoT 220 -- 7.1 Overview and Motivations 220 -- 7.2 Address Capabilities 224 -- 7.2.1 IPv4 Addressing and Issues 224 -- 7.2.2 IPv6 Address Space 225 -- 7.3 IPv6 Protocol Overview 231 -- 7.4 IPv6 Tunneling 239 -- 7.5 IPsec in IPv6 242 -- 7.6 Header Compression Schemes 242 -- 7.7 Quality of Service in IPv6 245 -- 7.8 Migration Strategies to IPv6 246 -- 7.8.1 Technical Approaches 246 -- 7.8.2 Residential Broadband Services in an IPv6 Environment 250 -- 7.8.3 Deployment Opportunities 252 -- References 254 -- 8 LAYER 3 CONNECTIVITY: MOBILE IPv6 TECHNOLOGIES FOR THE IoT 257 -- 8.1 Overview 257 -- 8.2 Protocol Details 266 -- 8.2.1 Generic Mechanisms 267 -- 8.2.2 New IPv6 Protocol, Message Types, and Destination Option 271 -- 8.2.3 Modifications to IPv6 Neighbor Discovery 277. 8.2.4 Requirements for Various IPv6 Nodes 278 -- 8.2.5 Correspondent Node Operation 278 -- 8.2.6 HA Node Operation 285 -- 8.2.7 Mobile Node Operation 286 -- 8.2.8 Relationship to IPV4 Mobile IPv4 (MIP) 291 -- References 292 -- 9 IPv6 OVER LOW-POWER WPAN (6LoWPAN) 293 -- 9.1 BackgroundIntroduction 294 -- 9.2 6LoWPANs Goals 296 -- 9.3 Transmission of IPv6 Packets Over IEEE 802.15.4 297 -- References 301 -- GLOSSARY 302 -- INDEX 356. |
| Record Nr. | UNINA-9910139045103321 |
|
Minoli Daniel <1952->
|
||
| Hoboken, New Jersey : , : Wiley, , [2013] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Building the internet of things with IPv6 and MIPv6 : the evolving world of M2m communications / / Daniel Minoli
| Building the internet of things with IPv6 and MIPv6 : the evolving world of M2m communications / / Daniel Minoli |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , [2013] |
| Descrizione fisica | 1 online resource (391 p.) |
| Disciplina | 004.6/2 |
| Soggetto topico |
Embedded Internet devices
Internet of things TCP/IP (Computer network protocol) Mobile computing |
| ISBN |
1-118-64713-0
1-118-64705-X 1-118-64714-9 |
| Classificazione | COM060000 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- PREFACE xiii / / ABOUT THE AUTHOR xvii -- 1 WHAT IS THE INTERNET OF THINGS? 1 -- 1.1 Overview and Motivations 1 -- 1.2 Examples of Applications 12 -- 1.3 IPv6 Role 17 -- 1.4 Areas of Development and Standardization 20 -- 1.5 Scope of the Present Investigation 23 -- Appendix 1.A: Some Related Literature 25 -- References 26 -- 2 INTERNET OF THINGS DEFINITIONS AND FRAMEWORKS 28 -- 2.1 IoT Definitions 28 -- 2.1.1 General Observations 28 -- 2.1.2 ITU-T Views 31 -- 2.1.3 Working Definition 33 -- 2.2 IoT Frameworks 38 -- 2.3 Basic Nodal Capabilities 44 -- References 46 -- 3 INTERNET OF THINGS APPLICATION EXAMPLES 48 -- 3.1 Overview 49 -- 3.2 Smart MeteringAdvanced Metering Infrastructure 52 -- 3.3 e-HealthBody Area Networks 55 -- 3.4 City Automation 62 -- 3.5 Automotive Applications 64 -- 3.6 Home Automation 67 -- 3.7 Smart Cards 70 -- 3.8 Tracking (Following and Monitoring Mobile Objects) 77 -- 3.9 Over-The-Air-Passive SurveillanceRing of Steel 79 -- 3.10 Control Application Examples 86 -- 3.11 Myriad Other Applications 93 -- References 94 -- 4 FUNDAMENTAL IoT MECHANISMS AND KEY TECHNOLOGIES 97 -- 4.1 Identification of IoT Objects and Services 97 -- 4.2 Structural Aspects of the IoT 101 -- 4.2.1 Environment Characteristics 101 -- 4.2.2 Traffic Characteristics 102 -- 4.2.3 Scalability 102 -- 4.2.4 Interoperability 103 -- 4.2.5 Security and Privacy 103 -- 4.2.6 Open Architecture 103 -- 4.3 Key IoT Technologies 103 -- 4.3.1 Device Intelligence 103 -- 4.3.2 Communication Capabilities 104 -- 4.3.3 Mobility Support 104 -- 4.3.4 Device Power 105 -- 4.3.5 Sensor Technology 107 -- 4.3.6 RFID Technology 111 -- 4.3.7 Satellite Technology 118 -- References 119 -- 5 EVOLVING IoT STANDARDS 120 -- 5.1 Overview and Approaches 120 -- 5.2 IETF IPv6 Routing Protocol for RPL Roll 123 -- 5.3 Constrained Application Protocol (CoAP) 126 -- 5.3.1 Background 126 -- 5.3.2 Messaging Model 129 -- 5.3.3 RequestResponse Model 129 -- 5.3.4 Intermediaries and Caching 129 -- 5.4 Representational State Transfer (REST) 130.
5.5 ETSI M2M 130 -- 5.6 Third-Generation Partnership Project Service Requirements for Machine-Type Communications 131 -- 5.6.1 Approach 131 -- 5.6.2 Architectural Reference Model for MTC 134 -- 5.7 CENELEC 135 -- 5.8 IETF IPv6 Over Lowpower WPAN (6LoWPAN) 137 -- 5.9 ZigBee IP (ZIP) 137 -- 5.10 IP in Smart Objects (IPSO) 138 -- Appendix 5.A: Legacy Supervisory Control and Data Acquisition (SCADA) Systems 138 -- References 142 -- 6 LAYER 12 CONNECTIVITY: WIRELESS TECHNOLOGIES FOR THE IoT 144 -- 6.1 WPAN Technologies for IoTM2M 145 -- 6.1.1 ZigbeeIEEE 802.15.4 155 -- 6.1.2 Radio Frequency for Consumer Electronics (RF4CE) 170 -- 6.1.3 Bluetooth and its Low-Energy Profile 170 -- 6.1.4 IEEE 802.15.6 WBANs 180 -- 6.1.5 IEEE 802.15 WPAN TG4j MBANs 181 -- 6.1.6 ETSI TR 101 557 184 -- 6.1.7 NFC 187 -- 6.1.8 Dedicated Short-Range Communications (DSRC) and Related Protocols 189 -- 6.1.9 Comparison of WPAN Technologies 192 -- 6.2 Cellular and Mobile Network Technologies for IoTM2M 195 -- 6.2.1 Overview and Motivations 195 -- 6.2.2 Universal Mobile Telecommunications System 196 -- 6.2.3 LTE 197 -- Appendix 6.A: Non-Wireless Technologies for IoT: Powerline Communications 209 -- References 216 -- 7 LAYER 3 CONNECTIVITY: IPv6 TECHNOLOGIES FOR THE IoT 220 -- 7.1 Overview and Motivations 220 -- 7.2 Address Capabilities 224 -- 7.2.1 IPv4 Addressing and Issues 224 -- 7.2.2 IPv6 Address Space 225 -- 7.3 IPv6 Protocol Overview 231 -- 7.4 IPv6 Tunneling 239 -- 7.5 IPsec in IPv6 242 -- 7.6 Header Compression Schemes 242 -- 7.7 Quality of Service in IPv6 245 -- 7.8 Migration Strategies to IPv6 246 -- 7.8.1 Technical Approaches 246 -- 7.8.2 Residential Broadband Services in an IPv6 Environment 250 -- 7.8.3 Deployment Opportunities 252 -- References 254 -- 8 LAYER 3 CONNECTIVITY: MOBILE IPv6 TECHNOLOGIES FOR THE IoT 257 -- 8.1 Overview 257 -- 8.2 Protocol Details 266 -- 8.2.1 Generic Mechanisms 267 -- 8.2.2 New IPv6 Protocol, Message Types, and Destination Option 271 -- 8.2.3 Modifications to IPv6 Neighbor Discovery 277. 8.2.4 Requirements for Various IPv6 Nodes 278 -- 8.2.5 Correspondent Node Operation 278 -- 8.2.6 HA Node Operation 285 -- 8.2.7 Mobile Node Operation 286 -- 8.2.8 Relationship to IPV4 Mobile IPv4 (MIP) 291 -- References 292 -- 9 IPv6 OVER LOW-POWER WPAN (6LoWPAN) 293 -- 9.1 BackgroundIntroduction 294 -- 9.2 6LoWPANs Goals 296 -- 9.3 Transmission of IPv6 Packets Over IEEE 802.15.4 297 -- References 301 -- GLOSSARY 302 -- INDEX 356. |
| Record Nr. | UNINA-9910812105303321 |
|
Minoli Daniel <1952->
|
||
| Hoboken, New Jersey : , : Wiley, , [2013] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
High-density and de-densified smart campus communications : technologies, integration, implementation and applications / / Daniel Minoli, Jo-Anne Dressendofer
| High-density and de-densified smart campus communications : technologies, integration, implementation and applications / / Daniel Minoli, Jo-Anne Dressendofer |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley & Sons, Inc., , [2022] |
| Descrizione fisica | 1 online resource (366 pages) |
| Disciplina | 621.384 |
| Soggetto topico |
Wireless communication systems
Smart materials |
| ISBN |
1-119-71608-X
1-119-71607-1 1-119-71606-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Preface -- About the Authors -- Acknowledgments -- Chapter 1 Background and Functional Requirements for High-Density Communications -- 1.1 BACKGROUND -- 1.2 REQUIREMENTS FOR HIGH-DENSITY COMMUNICATIONS -- 1.2.1 Pre-pandemic/Long-term Requirements for Airports -- 1.2.2 Pre-pandemic/Long-term Requirements for Stadiums -- 1.2.3 Pre-pandemic/Long-term Requirements for Convention Centers -- 1.2.4 Pre-pandemic/Long-term Requirements for Open Air Gatherings and Amusement Parks -- 1.2.5 Pre-pandemic/Long-term Requirements for Classrooms -- 1.2.6 Pre-pandemic/Long-term Requirements for Train and Subway Stations -- 1.2.7 Pre-pandemic/Long-term Requirements for Dense Office Environments -- 1.2.8 Ongoing Requirements for Dense Smart Warehouses and Distribution Centers -- 1.2.9 Pre-pandemic/Long-term Requirements for Dense Smart Cities -- 1.3 PANDEMIC-DRIVEN SOCIAL DISTANCING -- 1.3.1 Best Practices -- 1.3.2 Heuristic Density for the Pandemic Era -- 1.4 THE CONCEPT OF A WIRELESS SUPERNETWORK -- REFERENCES -- Chapter 2 Traditional WLAN Technologies -- 2.1 OVERVIEW -- 2.2 WLAN STANDARDS -- 2.3 WLAN BASIC CONCEPTS -- 2.3.1 PHY Layer Operation -- 2.3.2 MAC Layer Operation -- 2.4 HARDWARE ELEMENTS -- 2.5 KEY IEEE 802.11ac MECHANISMS -- 2.5.1 Downlink Multi-User MIMO (DL-MU-MIMO) -- 2.5.2 Beamforming -- 2.5.3 Dynamic Frequency Selection -- 2.5.4 Space-Time Block Coding -- 2.5.5 Product Waves -- 2.6 BRIEF PREVIEW OF IEEE 802.11ax -- REFERENCES -- Chapter 3 Traditional DAS Technologies -- 3.1 OVERVIEW -- 3.2 FREQUENCY BANDS OF CELLULAR OPERATION -- 3.2.1 Traditional RF Spectrum -- 3.2.2 Citizens Broadband Radio Service (CBRS) -- 3.2.3 Freed-up Satellite C-Band -- 3.2.4 5G Bands -- 3.2.5 Motivations for Additional Spectrum -- 3.2.6 Private LTE/Private CBRS -- 3.2.7 5G Network Slicing -- 3.2.8 Supportive Technologies.
3.3 DISTRIBUTED ANTENNA SYSTEMS (DASs) -- 3.3.1 Technology Scope -- 3.3.2 More Detailed Exemplary Arrangement -- 3.3.3 Traffic-aware DAS -- 3.3.4 BBU and DAS/RRU Connectivity -- 3.3.5 Ethernet/IP Transport Connectivity of DAS -- REFERENCES -- Chapter 4 Traditional Sensor Networks/IoT Services -- 4.1 OVERVIEW And ENVIRONMENT -- 4.2 ARCHITECTURAL CONCEPTS -- 4.3 WIRELESS TECHNOLOGIES FOR THE IoT -- 4.3.1 Pre-5G Wireless Technologies for the IoT -- 4.3.2 NB-IoT -- 4.3.3 LTE-M -- 4.3.4 5G Technologies for the IoT -- 4.3.5 WAN-Oriented IoT Connectivity Migration Strategies -- 4.4 EXAMPLES OF SEVEN-LAYER IoT PROTOCOL STACKS -- 4.4.1 UPnP -- 4.4.2 ZigBee -- 4.4.3 Bluetooth -- 4.5 GATEWAY-BASED IoT OPERATION -- 4.6 EDGE COMPUTING IN THE IoT ECOSYSTEM -- 4.7 SESSION ESTABLISHMENT EXAMPLE -- 4.8 IoT SECURITY -- 4.8.1 Challenges -- 4.8.2 Applicable Security Mechanisms -- 4.8.3 Hardware Considerations -- 4.8.4 Other Approaches: Blockchains -- REFERENCES -- Chapter 5 Evolved Campus Connectivity -- 5.1 ADVANCED SOLUTIONS -- 5.1.1 802.11ax Basics -- 5.1.2 Key 802.11ax Processes -- 5.1.3 Summary -- 5.2 VOICE OVER WI-FI (VOWI-FI) -- 5.3 5G TECHNOLOGIES -- 5.3.1 Emerging Services -- 5.3.2 New Access and Core Elements -- 5.3.3 New 5GC Architecture -- 5.3.4 Frequency Spectrum and Propagation Challenges -- 5.3.5 Resource Management -- 5.3.6 Requirements for Small Cells -- 5.3.7 Comparison to Wi-Fi 6 -- 5.4 IOT -- 5.5 5G DAS SOLUTIONS -- 5.6 INTEGRATED SOLUTIONS -- REFERENCES -- Chapter 6 De-densification of Spaces and Work Environments -- 6.1 OVERVIEW -- 6.2 BASIC APPROACHES -- 6.3 RTLS METHODOLOGIES AND TECHNOLOGIES -- 6.3.1 RFID Systems -- 6.3.2 Wi-Fi-based Positioning System (WPS) -- 6.3.3 Bluetooth -- 6.3.4 UWB -- 6.3.5 Automatic Vehicle Location (AVL) -- 6.4 STANDARDS -- 6.5 APPLICATIONS -- REFERENCES. Chapter 7 UWB-Based De-densification of Spaces and Work Environments -- 7.1 REVIEW OF UWB TECHNOLOGY -- 7.2 CARRIAGE OF INFORMATION IN UWB -- 7.2.1 Pulse Communication -- 7.2.2 UWB Modulation -- 7.3 UWB STANDARDS -- 7.4 IOT APPLICATIONS FOR UWB -- 7.5 UWB APPLICATIONS FOR SMART CITIES AND FOR REAL-TIME LOCATING SYSTEMS -- 7.5.1 Applications for Smart Cities -- 7.5.2 UWB Applications to Real-Time Location Systems -- 7.6 OSD/ODCMA APPLICATIONS -- REFERENCES -- Chapter 8 RTLSs and Distance Tracking Using Wi-Fi, Bluetooth, and Cellular Technologies -- 8.1 OVERVIEW -- 8.2 RF FINGERPRINTING METHODS -- 8.3 WI-FI RTLS APPROACHES -- 8.3.1 Common Approach -- 8.3.2 Design Considerations -- 8.3.3 Drawbacks and Limitations -- 8.3.4 Potential Enhancements -- 8.3.5 Illustrative Examples -- 8.4 BLE -- 8.4.1 Bluetooth and BLE Background -- 8.4.2 RTLS Applications -- 8.4.3 BLE-Based Contact Tracing -- 8.4.4 Illustrative Examples -- 8.5 CELLULAR APPROACHES -- 8.6 SUMMARY -- REFERENCES -- Chapter 9 Case Study of an Implementation and Rollout of a High-Density High-Impact Network -- 9.1 THURGOOD MARSHALL BWI AIRPORT DESIGN REQUIREMENTS -- 9.1.1 Broad Motivation -- 9.1.2 Status Quo Challenges -- 9.1.3 RFP Requirements -- 9.2 OVERVIEW OF THE FINAL DESIGN -- 9.2.1 DAS Solutions -- 9.2.2 Broadband, BLE, IoT -- Chapter 10 The Age of Wi-Fi and Rise of the Wireless SuperNetwork (WiSNET) -- 10.1 WHAT PRECEDED THE WiSNET -- 10.2 WHAT COMES NEXT -- 10.3 THE SUPER-INTEGRATION CONCEPT OF A WIRELESS SUPERNETWORK (WiSNET) -- 10.4 THE MULTIDIMENSIONALITY OF A SUPERNETWORK (WiSNET) -- 10.5 THE GENESIS OF THE WiSNET CONCEPT DEFINED IN THIS TEXT -- 10.6 THE DEFINITION AND CHARACTERIZATION OF A WiSNET -- 10.6.1 Architectural Aspects of a WiSNET -- 10.6.2 Technology Aspects of a WiSNET -- 10.6.3 Management Aspects of a WiSNET -- 10.7 ECONOMIC ADVANTAGES OF A WiSNET SYSTEM. 10.8 5G SLICE CAPABILITIES -- 10.8.1 Motivations and Approaches for 5G Network Slicing -- 10.8.2 Implementation -- 10.8.3 Wi-Fi Slicing -- 10.9 CONCLUSION -- REFERENCES -- Index -- EULA. |
| Record Nr. | UNINA-9910554802003321 |
|
Minoli Daniel <1952->
|
||
| Hoboken, New Jersey : , : John Wiley & Sons, Inc., , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
High-density and de-densified smart campus communications : technologies, integration, implementation and applications / / Daniel Minoli, Jo-Anne Dressendofer
| High-density and de-densified smart campus communications : technologies, integration, implementation and applications / / Daniel Minoli, Jo-Anne Dressendofer |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley & Sons, Inc., , [2022] |
| Descrizione fisica | 1 online resource (366 pages) |
| Disciplina | 621.384 |
| Soggetto topico |
Wireless communication systems
Smart materials |
| ISBN |
1-119-71608-X
1-119-71607-1 1-119-71606-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Preface -- About the Authors -- Acknowledgments -- Chapter 1 Background and Functional Requirements for High-Density Communications -- 1.1 BACKGROUND -- 1.2 REQUIREMENTS FOR HIGH-DENSITY COMMUNICATIONS -- 1.2.1 Pre-pandemic/Long-term Requirements for Airports -- 1.2.2 Pre-pandemic/Long-term Requirements for Stadiums -- 1.2.3 Pre-pandemic/Long-term Requirements for Convention Centers -- 1.2.4 Pre-pandemic/Long-term Requirements for Open Air Gatherings and Amusement Parks -- 1.2.5 Pre-pandemic/Long-term Requirements for Classrooms -- 1.2.6 Pre-pandemic/Long-term Requirements for Train and Subway Stations -- 1.2.7 Pre-pandemic/Long-term Requirements for Dense Office Environments -- 1.2.8 Ongoing Requirements for Dense Smart Warehouses and Distribution Centers -- 1.2.9 Pre-pandemic/Long-term Requirements for Dense Smart Cities -- 1.3 PANDEMIC-DRIVEN SOCIAL DISTANCING -- 1.3.1 Best Practices -- 1.3.2 Heuristic Density for the Pandemic Era -- 1.4 THE CONCEPT OF A WIRELESS SUPERNETWORK -- REFERENCES -- Chapter 2 Traditional WLAN Technologies -- 2.1 OVERVIEW -- 2.2 WLAN STANDARDS -- 2.3 WLAN BASIC CONCEPTS -- 2.3.1 PHY Layer Operation -- 2.3.2 MAC Layer Operation -- 2.4 HARDWARE ELEMENTS -- 2.5 KEY IEEE 802.11ac MECHANISMS -- 2.5.1 Downlink Multi-User MIMO (DL-MU-MIMO) -- 2.5.2 Beamforming -- 2.5.3 Dynamic Frequency Selection -- 2.5.4 Space-Time Block Coding -- 2.5.5 Product Waves -- 2.6 BRIEF PREVIEW OF IEEE 802.11ax -- REFERENCES -- Chapter 3 Traditional DAS Technologies -- 3.1 OVERVIEW -- 3.2 FREQUENCY BANDS OF CELLULAR OPERATION -- 3.2.1 Traditional RF Spectrum -- 3.2.2 Citizens Broadband Radio Service (CBRS) -- 3.2.3 Freed-up Satellite C-Band -- 3.2.4 5G Bands -- 3.2.5 Motivations for Additional Spectrum -- 3.2.6 Private LTE/Private CBRS -- 3.2.7 5G Network Slicing -- 3.2.8 Supportive Technologies.
3.3 DISTRIBUTED ANTENNA SYSTEMS (DASs) -- 3.3.1 Technology Scope -- 3.3.2 More Detailed Exemplary Arrangement -- 3.3.3 Traffic-aware DAS -- 3.3.4 BBU and DAS/RRU Connectivity -- 3.3.5 Ethernet/IP Transport Connectivity of DAS -- REFERENCES -- Chapter 4 Traditional Sensor Networks/IoT Services -- 4.1 OVERVIEW And ENVIRONMENT -- 4.2 ARCHITECTURAL CONCEPTS -- 4.3 WIRELESS TECHNOLOGIES FOR THE IoT -- 4.3.1 Pre-5G Wireless Technologies for the IoT -- 4.3.2 NB-IoT -- 4.3.3 LTE-M -- 4.3.4 5G Technologies for the IoT -- 4.3.5 WAN-Oriented IoT Connectivity Migration Strategies -- 4.4 EXAMPLES OF SEVEN-LAYER IoT PROTOCOL STACKS -- 4.4.1 UPnP -- 4.4.2 ZigBee -- 4.4.3 Bluetooth -- 4.5 GATEWAY-BASED IoT OPERATION -- 4.6 EDGE COMPUTING IN THE IoT ECOSYSTEM -- 4.7 SESSION ESTABLISHMENT EXAMPLE -- 4.8 IoT SECURITY -- 4.8.1 Challenges -- 4.8.2 Applicable Security Mechanisms -- 4.8.3 Hardware Considerations -- 4.8.4 Other Approaches: Blockchains -- REFERENCES -- Chapter 5 Evolved Campus Connectivity -- 5.1 ADVANCED SOLUTIONS -- 5.1.1 802.11ax Basics -- 5.1.2 Key 802.11ax Processes -- 5.1.3 Summary -- 5.2 VOICE OVER WI-FI (VOWI-FI) -- 5.3 5G TECHNOLOGIES -- 5.3.1 Emerging Services -- 5.3.2 New Access and Core Elements -- 5.3.3 New 5GC Architecture -- 5.3.4 Frequency Spectrum and Propagation Challenges -- 5.3.5 Resource Management -- 5.3.6 Requirements for Small Cells -- 5.3.7 Comparison to Wi-Fi 6 -- 5.4 IOT -- 5.5 5G DAS SOLUTIONS -- 5.6 INTEGRATED SOLUTIONS -- REFERENCES -- Chapter 6 De-densification of Spaces and Work Environments -- 6.1 OVERVIEW -- 6.2 BASIC APPROACHES -- 6.3 RTLS METHODOLOGIES AND TECHNOLOGIES -- 6.3.1 RFID Systems -- 6.3.2 Wi-Fi-based Positioning System (WPS) -- 6.3.3 Bluetooth -- 6.3.4 UWB -- 6.3.5 Automatic Vehicle Location (AVL) -- 6.4 STANDARDS -- 6.5 APPLICATIONS -- REFERENCES. Chapter 7 UWB-Based De-densification of Spaces and Work Environments -- 7.1 REVIEW OF UWB TECHNOLOGY -- 7.2 CARRIAGE OF INFORMATION IN UWB -- 7.2.1 Pulse Communication -- 7.2.2 UWB Modulation -- 7.3 UWB STANDARDS -- 7.4 IOT APPLICATIONS FOR UWB -- 7.5 UWB APPLICATIONS FOR SMART CITIES AND FOR REAL-TIME LOCATING SYSTEMS -- 7.5.1 Applications for Smart Cities -- 7.5.2 UWB Applications to Real-Time Location Systems -- 7.6 OSD/ODCMA APPLICATIONS -- REFERENCES -- Chapter 8 RTLSs and Distance Tracking Using Wi-Fi, Bluetooth, and Cellular Technologies -- 8.1 OVERVIEW -- 8.2 RF FINGERPRINTING METHODS -- 8.3 WI-FI RTLS APPROACHES -- 8.3.1 Common Approach -- 8.3.2 Design Considerations -- 8.3.3 Drawbacks and Limitations -- 8.3.4 Potential Enhancements -- 8.3.5 Illustrative Examples -- 8.4 BLE -- 8.4.1 Bluetooth and BLE Background -- 8.4.2 RTLS Applications -- 8.4.3 BLE-Based Contact Tracing -- 8.4.4 Illustrative Examples -- 8.5 CELLULAR APPROACHES -- 8.6 SUMMARY -- REFERENCES -- Chapter 9 Case Study of an Implementation and Rollout of a High-Density High-Impact Network -- 9.1 THURGOOD MARSHALL BWI AIRPORT DESIGN REQUIREMENTS -- 9.1.1 Broad Motivation -- 9.1.2 Status Quo Challenges -- 9.1.3 RFP Requirements -- 9.2 OVERVIEW OF THE FINAL DESIGN -- 9.2.1 DAS Solutions -- 9.2.2 Broadband, BLE, IoT -- Chapter 10 The Age of Wi-Fi and Rise of the Wireless SuperNetwork (WiSNET) -- 10.1 WHAT PRECEDED THE WiSNET -- 10.2 WHAT COMES NEXT -- 10.3 THE SUPER-INTEGRATION CONCEPT OF A WIRELESS SUPERNETWORK (WiSNET) -- 10.4 THE MULTIDIMENSIONALITY OF A SUPERNETWORK (WiSNET) -- 10.5 THE GENESIS OF THE WiSNET CONCEPT DEFINED IN THIS TEXT -- 10.6 THE DEFINITION AND CHARACTERIZATION OF A WiSNET -- 10.6.1 Architectural Aspects of a WiSNET -- 10.6.2 Technology Aspects of a WiSNET -- 10.6.3 Management Aspects of a WiSNET -- 10.7 ECONOMIC ADVANTAGES OF A WiSNET SYSTEM. 10.8 5G SLICE CAPABILITIES -- 10.8.1 Motivations and Approaches for 5G Network Slicing -- 10.8.2 Implementation -- 10.8.3 Wi-Fi Slicing -- 10.9 CONCLUSION -- REFERENCES -- Index -- EULA. |
| Record Nr. | UNINA-9910830497103321 |
|
Minoli Daniel <1952->
|
||
| Hoboken, New Jersey : , : John Wiley & Sons, Inc., , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Information technology risk management in enterprise environments [[electronic resource] ] : a review of industry practices and a practical guide to risk management teams / / Jake Kouns, Daniel Minoli
| Information technology risk management in enterprise environments [[electronic resource] ] : a review of industry practices and a practical guide to risk management teams / / Jake Kouns, Daniel Minoli |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | Hoboken, NJ, : Wiley, c2010 |
| Descrizione fisica | 1 online resource (441 p.) |
| Disciplina |
658.4/78
658.472 |
| Altri autori (Persone) | KounsJake |
| Soggetto topico |
Business enterprises - Computer networks - Security measures
Information technology - Security measures Data protection Computer security Risk management |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-118-21161-8
1-282-68665-8 9786612686658 0-470-55813-X 0-470-55811-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
INFORMATION TECHNOLOGY RISK MANAGEMENT IN ENTERPRISE ENVIRONMENTS; CONTENTS; PREFACE; ABOUT THE AUTHORS; PART I INDUSTRY PRACTICES IN RISK MANAGEMENT; 1. INFORMATION SECURITY RISK MANAGEMENT IMPERATIVES AND OPPORTUNITIES; 1.1 Risk Management Purpose and Scope; 1.1.1 Purpose of Risk Management; 1.1.2 Text Scope; References; Appendix 1A: Bibliography of Related Literature; 2. INFORMATION SECURITY RISK MANAGEMENT DEFINED; 2.1 Key Risk Management Definitions; 2.1.1 Survey of Industry Definitions; 2.1.2 Adopted Definitions; 2.2 A Mathematical Formulation of Risk
2.2.1 What Is Risk? A Formal Definition2.2.2 Risk in IT Environments; 2.2.3 Risk Management Procedures; 2.3 Typical Threats/Risk Events; 2.4 What is an Enterprise Architecture?; References; Appendix 2A: The CISSPforum/ISO27k Implementers Forum Information Security Risk List for 2008; Appendix 2B: What is Enterprise Risk Management (ERM)?; 3. INFORMATION SECURITY RISK MANAGEMENT STANDARDS; 3.1 ISO/IEC 13335; 3.2 ISO/IEC 17799 (ISO/IEC 27002:2005); 3.3 ISO/IEC 27000 SERIES 3.3.1 ISO/IEC 27000, Information Technology-Security Techniques-Information Security Management Systems-Fundamentals and Vocabulary3.3.2 ISO/IEC 27001:2005, Information Technology-Security Techniques-Specification for an Information Security Management System; 3.3.3 ISO/IEC 27002:2005, Information Technology-Security Techniques-Code of Practice for Information Security Management; 3.3.4 ISO/IEC 27003 Information Technology-Security Techniques-Information Security Management System Implementation Guidance 3.3.5 ISO/IEC 27004 Information Technology-Security Techniques-Information Security Management-Measurement3.3.6 ISO/IEC 27005:2008 Information Technology-Security Techniques-Information Security Risk Management; 3.4 ISO/IEC 31000; 3.5 NIST STANDARDS; 3.5.1 NIST SP 800-16; 3.5.2 NIST SP 800-30; 3.5.3 NIST SP 800-39; 3.6 AS/NZS 4360; References; Appendix 3A: Organization for Economic CoOperation and Development (OECD) Guidelines for the Security of Information Systems and Networks: Toward a Culture of Security; 4. A SURVEY OF AVAILABLE INFORMATION SECURITY RISK MANAGEMENT METHODS AND TOOLS 4.1 Overview4.2 Risk Management/Risk Analysis Methods; 4.2.1 Austrian IT Security Handbook; 4.2.2 CCTA Risk Assessment and Management Methodology (CRAMM); 4.2.3 Dutch A&K Analysis; 4.2.4 EBIOS; 4.2.5 ETSI Threat Vulnerability and Risk Analysis (TVRA) Method; 4.2.6 FAIR (Factor Analysis of Information Risk); 4.2.7 FIRM (Fundamental Information Risk Management); 4.2.8 FMEA (Failure Modes and Effects Analysis); 4.2.9 FRAP (Facilitated Risk Assessment Process); 4.2.10 ISAMM (Information Security Assessment and Monitoring Method); 4.2.11 ISO/IEC Baselines; 4.2.12 ISO 31000 Methodology 4.2.13 IT-Grundschutz (IT Baseline Protection Manual) |
| Record Nr. | UNINA-9910139475703321 |
|
Minoli Daniel <1952->
|
||
| Hoboken, NJ, : Wiley, c2010 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Information technology risk management in enterprise environments [[electronic resource] ] : a review of industry practices and a practical guide to risk management teams / / Jake Kouns, Daniel Minoli
| Information technology risk management in enterprise environments [[electronic resource] ] : a review of industry practices and a practical guide to risk management teams / / Jake Kouns, Daniel Minoli |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | Hoboken, NJ, : Wiley, c2010 |
| Descrizione fisica | 1 online resource (441 p.) |
| Disciplina |
658.4/78
658.472 |
| Altri autori (Persone) | KounsJake |
| Soggetto topico |
Business enterprises - Computer networks - Security measures
Information technology - Security measures Data protection Computer security Risk management |
| ISBN |
1-118-21161-8
1-282-68665-8 9786612686658 0-470-55813-X 0-470-55811-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
INFORMATION TECHNOLOGY RISK MANAGEMENT IN ENTERPRISE ENVIRONMENTS; CONTENTS; PREFACE; ABOUT THE AUTHORS; PART I INDUSTRY PRACTICES IN RISK MANAGEMENT; 1. INFORMATION SECURITY RISK MANAGEMENT IMPERATIVES AND OPPORTUNITIES; 1.1 Risk Management Purpose and Scope; 1.1.1 Purpose of Risk Management; 1.1.2 Text Scope; References; Appendix 1A: Bibliography of Related Literature; 2. INFORMATION SECURITY RISK MANAGEMENT DEFINED; 2.1 Key Risk Management Definitions; 2.1.1 Survey of Industry Definitions; 2.1.2 Adopted Definitions; 2.2 A Mathematical Formulation of Risk
2.2.1 What Is Risk? A Formal Definition2.2.2 Risk in IT Environments; 2.2.3 Risk Management Procedures; 2.3 Typical Threats/Risk Events; 2.4 What is an Enterprise Architecture?; References; Appendix 2A: The CISSPforum/ISO27k Implementers Forum Information Security Risk List for 2008; Appendix 2B: What is Enterprise Risk Management (ERM)?; 3. INFORMATION SECURITY RISK MANAGEMENT STANDARDS; 3.1 ISO/IEC 13335; 3.2 ISO/IEC 17799 (ISO/IEC 27002:2005); 3.3 ISO/IEC 27000 SERIES 3.3.1 ISO/IEC 27000, Information Technology-Security Techniques-Information Security Management Systems-Fundamentals and Vocabulary3.3.2 ISO/IEC 27001:2005, Information Technology-Security Techniques-Specification for an Information Security Management System; 3.3.3 ISO/IEC 27002:2005, Information Technology-Security Techniques-Code of Practice for Information Security Management; 3.3.4 ISO/IEC 27003 Information Technology-Security Techniques-Information Security Management System Implementation Guidance 3.3.5 ISO/IEC 27004 Information Technology-Security Techniques-Information Security Management-Measurement3.3.6 ISO/IEC 27005:2008 Information Technology-Security Techniques-Information Security Risk Management; 3.4 ISO/IEC 31000; 3.5 NIST STANDARDS; 3.5.1 NIST SP 800-16; 3.5.2 NIST SP 800-30; 3.5.3 NIST SP 800-39; 3.6 AS/NZS 4360; References; Appendix 3A: Organization for Economic CoOperation and Development (OECD) Guidelines for the Security of Information Systems and Networks: Toward a Culture of Security; 4. A SURVEY OF AVAILABLE INFORMATION SECURITY RISK MANAGEMENT METHODS AND TOOLS 4.1 Overview4.2 Risk Management/Risk Analysis Methods; 4.2.1 Austrian IT Security Handbook; 4.2.2 CCTA Risk Assessment and Management Methodology (CRAMM); 4.2.3 Dutch A&K Analysis; 4.2.4 EBIOS; 4.2.5 ETSI Threat Vulnerability and Risk Analysis (TVRA) Method; 4.2.6 FAIR (Factor Analysis of Information Risk); 4.2.7 FIRM (Fundamental Information Risk Management); 4.2.8 FMEA (Failure Modes and Effects Analysis); 4.2.9 FRAP (Facilitated Risk Assessment Process); 4.2.10 ISAMM (Information Security Assessment and Monitoring Method); 4.2.11 ISO/IEC Baselines; 4.2.12 ISO 31000 Methodology 4.2.13 IT-Grundschutz (IT Baseline Protection Manual) |
| Record Nr. | UNINA-9910830594603321 |
|
Minoli Daniel <1952->
|
||
| Hoboken, NJ, : Wiley, c2010 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Information technology risk management in enterprise environments [[electronic resource] ] : a review of industry practices and a practical guide to risk management teams / / Jake Kouns, Daniel Minoli
| Information technology risk management in enterprise environments [[electronic resource] ] : a review of industry practices and a practical guide to risk management teams / / Jake Kouns, Daniel Minoli |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | Hoboken, NJ, : Wiley, c2010 |
| Descrizione fisica | 1 online resource (441 p.) |
| Disciplina |
658.4/78
658.472 |
| Altri autori (Persone) | KounsJake |
| Soggetto topico |
Business enterprises - Computer networks - Security measures
Information technology - Security measures Data protection Computer security Risk management |
| ISBN |
1-118-21161-8
1-282-68665-8 9786612686658 0-470-55813-X 0-470-55811-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
INFORMATION TECHNOLOGY RISK MANAGEMENT IN ENTERPRISE ENVIRONMENTS; CONTENTS; PREFACE; ABOUT THE AUTHORS; PART I INDUSTRY PRACTICES IN RISK MANAGEMENT; 1. INFORMATION SECURITY RISK MANAGEMENT IMPERATIVES AND OPPORTUNITIES; 1.1 Risk Management Purpose and Scope; 1.1.1 Purpose of Risk Management; 1.1.2 Text Scope; References; Appendix 1A: Bibliography of Related Literature; 2. INFORMATION SECURITY RISK MANAGEMENT DEFINED; 2.1 Key Risk Management Definitions; 2.1.1 Survey of Industry Definitions; 2.1.2 Adopted Definitions; 2.2 A Mathematical Formulation of Risk
2.2.1 What Is Risk? A Formal Definition2.2.2 Risk in IT Environments; 2.2.3 Risk Management Procedures; 2.3 Typical Threats/Risk Events; 2.4 What is an Enterprise Architecture?; References; Appendix 2A: The CISSPforum/ISO27k Implementers Forum Information Security Risk List for 2008; Appendix 2B: What is Enterprise Risk Management (ERM)?; 3. INFORMATION SECURITY RISK MANAGEMENT STANDARDS; 3.1 ISO/IEC 13335; 3.2 ISO/IEC 17799 (ISO/IEC 27002:2005); 3.3 ISO/IEC 27000 SERIES 3.3.1 ISO/IEC 27000, Information Technology-Security Techniques-Information Security Management Systems-Fundamentals and Vocabulary3.3.2 ISO/IEC 27001:2005, Information Technology-Security Techniques-Specification for an Information Security Management System; 3.3.3 ISO/IEC 27002:2005, Information Technology-Security Techniques-Code of Practice for Information Security Management; 3.3.4 ISO/IEC 27003 Information Technology-Security Techniques-Information Security Management System Implementation Guidance 3.3.5 ISO/IEC 27004 Information Technology-Security Techniques-Information Security Management-Measurement3.3.6 ISO/IEC 27005:2008 Information Technology-Security Techniques-Information Security Risk Management; 3.4 ISO/IEC 31000; 3.5 NIST STANDARDS; 3.5.1 NIST SP 800-16; 3.5.2 NIST SP 800-30; 3.5.3 NIST SP 800-39; 3.6 AS/NZS 4360; References; Appendix 3A: Organization for Economic CoOperation and Development (OECD) Guidelines for the Security of Information Systems and Networks: Toward a Culture of Security; 4. A SURVEY OF AVAILABLE INFORMATION SECURITY RISK MANAGEMENT METHODS AND TOOLS 4.1 Overview4.2 Risk Management/Risk Analysis Methods; 4.2.1 Austrian IT Security Handbook; 4.2.2 CCTA Risk Assessment and Management Methodology (CRAMM); 4.2.3 Dutch A&K Analysis; 4.2.4 EBIOS; 4.2.5 ETSI Threat Vulnerability and Risk Analysis (TVRA) Method; 4.2.6 FAIR (Factor Analysis of Information Risk); 4.2.7 FIRM (Fundamental Information Risk Management); 4.2.8 FMEA (Failure Modes and Effects Analysis); 4.2.9 FRAP (Facilitated Risk Assessment Process); 4.2.10 ISAMM (Information Security Assessment and Monitoring Method); 4.2.11 ISO/IEC Baselines; 4.2.12 ISO 31000 Methodology 4.2.13 IT-Grundschutz (IT Baseline Protection Manual) |
| Record Nr. | UNINA-9910840819503321 |
|
Minoli Daniel <1952->
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||
| Hoboken, NJ, : Wiley, c2010 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Innovations in satellite communications and satellite technology : the industry implications of DVB-S2X, high throughput satellites, Ultra HD, M2M, and IP / / Daniel Minoli, Secure Enterprise Systems, Inc., New York, USA
| Innovations in satellite communications and satellite technology : the industry implications of DVB-S2X, high throughput satellites, Ultra HD, M2M, and IP / / Daniel Minoli, Secure Enterprise Systems, Inc., New York, USA |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley & Sons Inc., , [2015] |
| Descrizione fisica | 1 recurso electrónico |
| Disciplina | 621.382/5 |
| Soggetto topico | Artificial satellites in telecommunication |
| ISBN |
1-118-98407-2
1-118-98408-0 1-118-98406-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- Preface xi -- Acknowledgments xiii -- About the Author xv -- 1 Overview 1 -- 1.1 Background 2 -- 1.2 Industry Issues and Opportunities: Evolving Trends 6 -- 1.2.1 Issues and Opportunities 6 -- 1.2.2 Evolving Trends 9 -- 1.3 Basic Satellite Primer 15 -- 1.3.1 Satellite Orbits 15 -- 1.3.2 Satellite Transmission Bands 22 -- 1.3.3 Satellite Signal Regeneration 32 -- 1.3.4 Satellite Communication Transmission Chain 34 -- 1.4 Satellite Applications 38 -- 1.5 Satellite Market View 42 -- 1.6 Where is Fiber Optic Technology Going? 45 -- 1.7 Innovation Needed 47 -- References 48 -- 2 DVB-S2 Modulation Extensions and Other Advances 51 -- 2.1 Part 1: A Review of Modulation and FEC Principles 52 -- 2.1.1 Eb/No Concepts 52 -- 2.1.2 FEC Basics 56 -- 2.1.3 Filters and Roll-Off Factors 63 -- 2.2 Part 2: DVB-S2 and DVB-S2 Extensions 71 -- 2.2.1 DVB-S2 Modulation 71 -- 2.2.2 DVB-S2 Extensions 77 -- 2.3 Part 3: Other Ground-Side Advances 84 -- 2.3.1 Carrier ID 84 -- 2.3.2 Intelligent Inverse Multiplexing 87 -- 2.3.3 Implications of H.265 Coding 91 -- References 93 -- 3 High Throughput Satellites (HTS) and KA/KU Spot Beam Technologies 95 -- 3.1 Overview 98 -- 3.2 Multiple Access Schemes and Frequency Reuse 101 -- 3.3 Spot Beam Approach 105 -- 3.4 Frequency Colors 109 -- 3.5 Frequency Bands of Operation 114 -- 3.6 Losses and Rain Considerations 122 -- 3.7 HTS Applications 124 -- 3.8 Comparison Between Approaches 128 -- 3.9 A View of KU-Based HTS Systems 131 -- 3.10 HTS Design Considerations 134 -- 3.11 Spot Beam Antenna Design Basics (Satellite Antenna) 135 -- 3.11.1 Single Feed per Beam Antennas 138 -- 3.11.2 Multiple Feeds per Beam Antennas 140 -- 3.12 Examples of HTS 142 -- 3.12.1 ViaSat-1 and -2 143 -- 3.12.2 EchoStar 145 -- 3.12.3 Eutelsat KA-SAT 147 -- 3.12.4 Intelsat EPIC 149 -- 3.12.5 Global Xpress 151 -- 3.12.6 Other Traditional HTS 151 -- 3.12.7 O3b 153 -- 3.12.8 Wideband Global Satcom (WGS) 156 -- References 157 -- 4 Aeronautical Mobility Services 161 -- 4.1 Overview of the Mobility Environment 162.
4.2 Aeronautical Systems 166 -- 4.2.1 Market Opportunities 166 -- 4.2.2 Technology Approaches to Aeronautical Connectivity 168 -- 4.2.3 Aeronautical Antenna Technology and Regulatory Matters 175 -- 4.2.4 Terminal Technology 178 -- 4.2.5 A Specific Example of Antenna Engineering (ViaSat) 178 -- 4.2.6 Beamforming and Ground-Based Beam Forming (GBBF) Systems 188 -- 4.3 Technology Players and Approaches 192 -- 4.3.1 Satellite Infrastructure Providers 192 -- 4.3.2 Vertical Service Providers to Airlines 198 -- References 205 -- 5 Maritime and Other Mobility Services 207 -- 5.1 Approaches to Maritime Communication 207 -- 5.2 Key Players 212 -- 5.2.1 Inmarsat 212 -- 5.2.2 ViaSat/KVH 212 -- 5.2.3 Intelsat 213 -- 5.2.4 O3b 213 -- 5.3 Comms-On-The-Move Applications 216 -- 5.4 HTS/Ka-Band Transportable Systems 217 -- References 219 -- 6 M2M Developments and Satellite Applications 221 -- 6.1 A General Overview of the Internet of Things and M2M 222 -- 6.2 M2M Frameworks 233 -- 6.3 M2M Applications Examples and Satellite Support 241 -- 6.3.1 Examples of General Applications 242 -- 6.3.2 Satellite Roles Context and Applications 254 -- 6.3.3 Antennas for Satellite M2M Applications 255 -- 6.3.4 M2M Market Opportunities for Satellite Operators 256 -- 6.3.5 Key Satellite Industry Players and Approaches 263 -- 6.4 Competitive Wireless Technologies 282 -- 6.4.1 Universal Mobile Telecommunications System (UMTS) 291 -- 6.4.2 Long-Term Evolution (LTE) 291 -- References 294 -- 7 UltraHD Video/TV and Satellite Implications 297 -- 7.1 H.265 in the UltraHD Context 298 -- 7.2 Bandwidth/Transmission Requirements 313 -- 7.3 Terrestrial Distribution 315 -- 7.4 Satellite Distribution 316 -- 7.5 Hybrid Distribution 317 -- 7.6 Deployment Challenges Costs Acceptance 319 -- References 319 -- 8 Satellite Technology Advances: Electric Propulsion and Launch Platforms 321 -- 8.1 Basic Technology and Approach for Electric Propulsion 322 -- 8.2 EP Engines 328 -- 8.2.1 Ion Engines 330 -- 8.2.2 Hall Effect Thrusters 330. 8.2.3 MagnetoPlasma Dynamic Thruster 333 -- 8.3 Advantages and Disadvantages of all-EP 335 -- 8.4 Basics About Station-Keeping 337 -- 8.5 Industry Approaches 340 -- 8.6 New Approaches and Players for Launch Platforms 342 -- 8.6.1 Space Exploration Technologies Corporation (SpaceX) 342 -- 8.6.2 Sea Launch 344 -- 8.6.3 Traditional Launchers 344 -- References 345 -- Appendix 8A Transponder Costs 347 -- 8A.1 Typical SG&A and EBITDA for the General Commercial World and Satellite Firms 347 -- 8A.2 Transponder Costs 354 -- References 356 -- Appendix A Partial Listing of System-Level US Patents for Spot-Beam/Multi-Beam Satellites 357 -- Appendix B Glossary of Key Satellite Concepts and Terms 367 -- Index 413. |
| Record Nr. | UNINA-9910132392903321 |
|
Minoli Daniel <1952->
|
||
| Hoboken, New Jersey : , : John Wiley & Sons Inc., , [2015] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
