Verfügbarkeit: 5G and Satellite RF and Optical Integration

5G and Satellite RF and Optical Integration:

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Bibliographische Detailangaben
1. Verfasser:	Varrall, Geoff
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Norwood : Artech House, 2022.
Schlagworte:	5G mobile communication systems. Artificial satellites in telecommunication. Integrated optics. Communications mobiles 5G. Satellites artificiels dans les télécommunications. Optique intégrée. communications satellites. 5G mobile communication systems Artificial satellites in telecommunication Integrated optics
Online-Zugang:	Volltext
Beschreibung:	Description based upon print version of record. 3.4 The Role of Analog Optical Transport (AOT) in Network Vendor Interoperability Testing (NV-IOT) [8]
Beschreibung:	1 online resource (287 p.)
ISBN:	1630819573 9781630819576

Internformat

MARC


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505	0		\|a Intro -- 5G and Satellite RF and Optical Integration -- Contents -- Preface -- The Best of Three? -- References -- Acknowledgments -- Chapter 1 5G Radio Spectrum Including RF C Band: Link Budgets and Active and Passive Device Efficiency -- 1.1 New Radio: The FR 1 Bands -- 1.2 FR1 C Band -- 1.3 The FR2 Bands -- 1.4 Smart Phone RF Front Ends -- 1.5 5G Standards Including NTNs -- 1.6 What Bands and Technologies Are Supported in Present Smart Phones? -- 1.7 Can I Make a Phone Call on My 5G Satellite Phone? -- 1.8 Defining the S-RAN and the Role of the G-WON -- 1.9 Summary
505	8		\|a Appendix 1A Resources and References -- End Notes -- Chapter 2 Optical C Band Link Budgets and Active and Passive Device Efficiency -- 2.1 The Best Way to Move Bits About? -- 2.2 Guided Versus Unguided Media -- 2.3 Impact of Device Efficiency on Guided and Unguided Media -- 2.4 Optical Modulation and Optical Band Options for Terrestrial Fiber and Free-Space Optical Transmission -- 2.5 Device Performance -- 2.5.1 Device Challenges for Wavelength-Division Multiplexing -- 2.5.2 Device Efficiency Comparisons -- 2.6 Modulation in Short, Medium, and Long-Haul Terrestrial Fiber
505	8		\|a 2.7 The Role of the Digital Signal Processor in RF and Optical Terrestrial and Space Networks and Legacy Copper -- 2.8 The Copper-to-Fiber Transition and the Passive Optical Network -- 2.9 PONs and the 5G RAN -- 2.9.1 PON Performance in the 5G RAN -- 2.9.2 Single-Mode and Multimode Fiber-Connector Loss and Other Losses -- 2.9.3 Differentiating Intrinsic and Extrinsic Losses -- 2.10 Active Optical Networks -- 2.11 The 5G C-RAN, D-RAN, S-RAN, Fronthaul, Midhaul, Backhaul, Long-Haul Links -- 2.12 Longhaul to Fronthaul -- 2.13 Impact of H-ARQ on Fronthaul Latency
505	8		\|a 2.14 Common Public Radio Interface and Enhanced CPRI Standards -- 2.14.1 Standards Groups -- 2.14.2 Fronthaul, Midhaul, and Integrated Access Backhaul (IAB) -- 2.14.3 Passive Optical, Active Optical, and Point-to-Point Wireless Integration -- 2.15 Point-to-Point Wireless V Band, E Band, W Band, and D Band -- 2.16 5G Networks in 2023-Optical and RF Backhaul Options -- 2.17 E Band Point to Point Radios -- 2.18 Copper Versus Fiber to the Desk and Fiber to the Sofa (5G TV) -- 2.19 Plastic Optical Fiber (POF) -- 2.19.1 POF in the Home -- 2.19.2 POF in Automotive and Medical Markets
505	8		\|a 2.20 Power Over Guided and Unguided Media -- 2.20.1 Power Over Copper and Cable and Fiber -- 2.20.2 Power Over Free Space-RF and Optical Systems -- 2.21 Subsea Optical C Band -- 2.22 Power Over Subsea Cable -- 2.23 RF and Optical Band Plan -- 2.24 Summary -- End Notes -- Additional References and Resources -- Chapter 3 RF over Fiber -- 3.1 Is Analog the Answer? -- 3.2 Direct and Indirect Digital and Analog Modulation -- 3.3 The Role of Analog Optical Transport in 5G eMBB, URLLC Repeater Applications , and Band-Access Backhaul
500			\|a 3.4 The Role of Analog Optical Transport (AOT) in Network Vendor Interoperability Testing (NV-IOT) [8]
650		0	\|a 5G mobile communication systems. \|0 http://id.loc.gov/authorities/subjects/sh2019000281
650		0	\|a Artificial satellites in telecommunication. \|0 http://id.loc.gov/authorities/subjects/sh85008244
650		0	\|a Integrated optics. \|0 http://id.loc.gov/authorities/subjects/sh85067129
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650		7	\|a communications satellites. \|2 aat
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650		7	\|a Integrated optics \|2 fast
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Datensatz im Suchindex

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contents	Intro -- 5G and Satellite RF and Optical Integration -- Contents -- Preface -- The Best of Three? -- References -- Acknowledgments -- Chapter 1 5G Radio Spectrum Including RF C Band: Link Budgets and Active and Passive Device Efficiency -- 1.1 New Radio: The FR 1 Bands -- 1.2 FR1 C Band -- 1.3 The FR2 Bands -- 1.4 Smart Phone RF Front Ends -- 1.5 5G Standards Including NTNs -- 1.6 What Bands and Technologies Are Supported in Present Smart Phones? -- 1.7 Can I Make a Phone Call on My 5G Satellite Phone? -- 1.8 Defining the S-RAN and the Role of the G-WON -- 1.9 Summary Appendix 1A Resources and References -- End Notes -- Chapter 2 Optical C Band Link Budgets and Active and Passive Device Efficiency -- 2.1 The Best Way to Move Bits About? -- 2.2 Guided Versus Unguided Media -- 2.3 Impact of Device Efficiency on Guided and Unguided Media -- 2.4 Optical Modulation and Optical Band Options for Terrestrial Fiber and Free-Space Optical Transmission -- 2.5 Device Performance -- 2.5.1 Device Challenges for Wavelength-Division Multiplexing -- 2.5.2 Device Efficiency Comparisons -- 2.6 Modulation in Short, Medium, and Long-Haul Terrestrial Fiber 2.7 The Role of the Digital Signal Processor in RF and Optical Terrestrial and Space Networks and Legacy Copper -- 2.8 The Copper-to-Fiber Transition and the Passive Optical Network -- 2.9 PONs and the 5G RAN -- 2.9.1 PON Performance in the 5G RAN -- 2.9.2 Single-Mode and Multimode Fiber-Connector Loss and Other Losses -- 2.9.3 Differentiating Intrinsic and Extrinsic Losses -- 2.10 Active Optical Networks -- 2.11 The 5G C-RAN, D-RAN, S-RAN, Fronthaul, Midhaul, Backhaul, Long-Haul Links -- 2.12 Longhaul to Fronthaul -- 2.13 Impact of H-ARQ on Fronthaul Latency 2.14 Common Public Radio Interface and Enhanced CPRI Standards -- 2.14.1 Standards Groups -- 2.14.2 Fronthaul, Midhaul, and Integrated Access Backhaul (IAB) -- 2.14.3 Passive Optical, Active Optical, and Point-to-Point Wireless Integration -- 2.15 Point-to-Point Wireless V Band, E Band, W Band, and D Band -- 2.16 5G Networks in 2023-Optical and RF Backhaul Options -- 2.17 E Band Point to Point Radios -- 2.18 Copper Versus Fiber to the Desk and Fiber to the Sofa (5G TV) -- 2.19 Plastic Optical Fiber (POF) -- 2.19.1 POF in the Home -- 2.19.2 POF in Automotive and Medical Markets 2.20 Power Over Guided and Unguided Media -- 2.20.1 Power Over Copper and Cable and Fiber -- 2.20.2 Power Over Free Space-RF and Optical Systems -- 2.21 Subsea Optical C Band -- 2.22 Power Over Subsea Cable -- 2.23 RF and Optical Band Plan -- 2.24 Summary -- End Notes -- Additional References and Resources -- Chapter 3 RF over Fiber -- 3.1 Is Analog the Answer? -- 3.2 Direct and Indirect Digital and Analog Modulation -- 3.3 The Role of Analog Optical Transport in 5G eMBB, URLLC Repeater Applications , and Band-Access Backhaul
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spelling	Varrall, Geoff. 5G and Satellite RF and Optical Integration [electronic resource]. Norwood : Artech House, 2022. 1 online resource (287 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Description based upon print version of record. Intro -- 5G and Satellite RF and Optical Integration -- Contents -- Preface -- The Best of Three? -- References -- Acknowledgments -- Chapter 1 5G Radio Spectrum Including RF C Band: Link Budgets and Active and Passive Device Efficiency -- 1.1 New Radio: The FR 1 Bands -- 1.2 FR1 C Band -- 1.3 The FR2 Bands -- 1.4 Smart Phone RF Front Ends -- 1.5 5G Standards Including NTNs -- 1.6 What Bands and Technologies Are Supported in Present Smart Phones? -- 1.7 Can I Make a Phone Call on My 5G Satellite Phone? -- 1.8 Defining the S-RAN and the Role of the G-WON -- 1.9 Summary Appendix 1A Resources and References -- End Notes -- Chapter 2 Optical C Band Link Budgets and Active and Passive Device Efficiency -- 2.1 The Best Way to Move Bits About? -- 2.2 Guided Versus Unguided Media -- 2.3 Impact of Device Efficiency on Guided and Unguided Media -- 2.4 Optical Modulation and Optical Band Options for Terrestrial Fiber and Free-Space Optical Transmission -- 2.5 Device Performance -- 2.5.1 Device Challenges for Wavelength-Division Multiplexing -- 2.5.2 Device Efficiency Comparisons -- 2.6 Modulation in Short, Medium, and Long-Haul Terrestrial Fiber 2.7 The Role of the Digital Signal Processor in RF and Optical Terrestrial and Space Networks and Legacy Copper -- 2.8 The Copper-to-Fiber Transition and the Passive Optical Network -- 2.9 PONs and the 5G RAN -- 2.9.1 PON Performance in the 5G RAN -- 2.9.2 Single-Mode and Multimode Fiber-Connector Loss and Other Losses -- 2.9.3 Differentiating Intrinsic and Extrinsic Losses -- 2.10 Active Optical Networks -- 2.11 The 5G C-RAN, D-RAN, S-RAN, Fronthaul, Midhaul, Backhaul, Long-Haul Links -- 2.12 Longhaul to Fronthaul -- 2.13 Impact of H-ARQ on Fronthaul Latency 2.14 Common Public Radio Interface and Enhanced CPRI Standards -- 2.14.1 Standards Groups -- 2.14.2 Fronthaul, Midhaul, and Integrated Access Backhaul (IAB) -- 2.14.3 Passive Optical, Active Optical, and Point-to-Point Wireless Integration -- 2.15 Point-to-Point Wireless V Band, E Band, W Band, and D Band -- 2.16 5G Networks in 2023-Optical and RF Backhaul Options -- 2.17 E Band Point to Point Radios -- 2.18 Copper Versus Fiber to the Desk and Fiber to the Sofa (5G TV) -- 2.19 Plastic Optical Fiber (POF) -- 2.19.1 POF in the Home -- 2.19.2 POF in Automotive and Medical Markets 2.20 Power Over Guided and Unguided Media -- 2.20.1 Power Over Copper and Cable and Fiber -- 2.20.2 Power Over Free Space-RF and Optical Systems -- 2.21 Subsea Optical C Band -- 2.22 Power Over Subsea Cable -- 2.23 RF and Optical Band Plan -- 2.24 Summary -- End Notes -- Additional References and Resources -- Chapter 3 RF over Fiber -- 3.1 Is Analog the Answer? -- 3.2 Direct and Indirect Digital and Analog Modulation -- 3.3 The Role of Analog Optical Transport in 5G eMBB, URLLC Repeater Applications , and Band-Access Backhaul 3.4 The Role of Analog Optical Transport (AOT) in Network Vendor Interoperability Testing (NV-IOT) [8] 5G mobile communication systems. http://id.loc.gov/authorities/subjects/sh2019000281 Artificial satellites in telecommunication. http://id.loc.gov/authorities/subjects/sh85008244 Integrated optics. http://id.loc.gov/authorities/subjects/sh85067129 Communications mobiles 5G. Satellites artificiels dans les télécommunications. Optique intégrée. communications satellites. aat 5G mobile communication systems fast Artificial satellites in telecommunication fast Integrated optics fast Print version: Varrall, Geoff 5G and Satellite RF and Optical Integration Norwood : Artech House,c2022 9781630819569 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3534282 Volltext
spellingShingle	Varrall, Geoff 5G and Satellite RF and Optical Integration Intro -- 5G and Satellite RF and Optical Integration -- Contents -- Preface -- The Best of Three? -- References -- Acknowledgments -- Chapter 1 5G Radio Spectrum Including RF C Band: Link Budgets and Active and Passive Device Efficiency -- 1.1 New Radio: The FR 1 Bands -- 1.2 FR1 C Band -- 1.3 The FR2 Bands -- 1.4 Smart Phone RF Front Ends -- 1.5 5G Standards Including NTNs -- 1.6 What Bands and Technologies Are Supported in Present Smart Phones? -- 1.7 Can I Make a Phone Call on My 5G Satellite Phone? -- 1.8 Defining the S-RAN and the Role of the G-WON -- 1.9 Summary Appendix 1A Resources and References -- End Notes -- Chapter 2 Optical C Band Link Budgets and Active and Passive Device Efficiency -- 2.1 The Best Way to Move Bits About? -- 2.2 Guided Versus Unguided Media -- 2.3 Impact of Device Efficiency on Guided and Unguided Media -- 2.4 Optical Modulation and Optical Band Options for Terrestrial Fiber and Free-Space Optical Transmission -- 2.5 Device Performance -- 2.5.1 Device Challenges for Wavelength-Division Multiplexing -- 2.5.2 Device Efficiency Comparisons -- 2.6 Modulation in Short, Medium, and Long-Haul Terrestrial Fiber 2.7 The Role of the Digital Signal Processor in RF and Optical Terrestrial and Space Networks and Legacy Copper -- 2.8 The Copper-to-Fiber Transition and the Passive Optical Network -- 2.9 PONs and the 5G RAN -- 2.9.1 PON Performance in the 5G RAN -- 2.9.2 Single-Mode and Multimode Fiber-Connector Loss and Other Losses -- 2.9.3 Differentiating Intrinsic and Extrinsic Losses -- 2.10 Active Optical Networks -- 2.11 The 5G C-RAN, D-RAN, S-RAN, Fronthaul, Midhaul, Backhaul, Long-Haul Links -- 2.12 Longhaul to Fronthaul -- 2.13 Impact of H-ARQ on Fronthaul Latency 2.14 Common Public Radio Interface and Enhanced CPRI Standards -- 2.14.1 Standards Groups -- 2.14.2 Fronthaul, Midhaul, and Integrated Access Backhaul (IAB) -- 2.14.3 Passive Optical, Active Optical, and Point-to-Point Wireless Integration -- 2.15 Point-to-Point Wireless V Band, E Band, W Band, and D Band -- 2.16 5G Networks in 2023-Optical and RF Backhaul Options -- 2.17 E Band Point to Point Radios -- 2.18 Copper Versus Fiber to the Desk and Fiber to the Sofa (5G TV) -- 2.19 Plastic Optical Fiber (POF) -- 2.19.1 POF in the Home -- 2.19.2 POF in Automotive and Medical Markets 2.20 Power Over Guided and Unguided Media -- 2.20.1 Power Over Copper and Cable and Fiber -- 2.20.2 Power Over Free Space-RF and Optical Systems -- 2.21 Subsea Optical C Band -- 2.22 Power Over Subsea Cable -- 2.23 RF and Optical Band Plan -- 2.24 Summary -- End Notes -- Additional References and Resources -- Chapter 3 RF over Fiber -- 3.1 Is Analog the Answer? -- 3.2 Direct and Indirect Digital and Analog Modulation -- 3.3 The Role of Analog Optical Transport in 5G eMBB, URLLC Repeater Applications , and Band-Access Backhaul 5G mobile communication systems. http://id.loc.gov/authorities/subjects/sh2019000281 Artificial satellites in telecommunication. http://id.loc.gov/authorities/subjects/sh85008244 Integrated optics. http://id.loc.gov/authorities/subjects/sh85067129 Communications mobiles 5G. Satellites artificiels dans les télécommunications. Optique intégrée. communications satellites. aat 5G mobile communication systems fast Artificial satellites in telecommunication fast Integrated optics fast
subject_GND	http://id.loc.gov/authorities/subjects/sh2019000281 http://id.loc.gov/authorities/subjects/sh85008244 http://id.loc.gov/authorities/subjects/sh85067129
title	5G and Satellite RF and Optical Integration
title_auth	5G and Satellite RF and Optical Integration
title_exact_search	5G and Satellite RF and Optical Integration
title_full	5G and Satellite RF and Optical Integration [electronic resource].
title_fullStr	5G and Satellite RF and Optical Integration [electronic resource].
title_full_unstemmed	5G and Satellite RF and Optical Integration [electronic resource].
title_short	5G and Satellite RF and Optical Integration
title_sort	5g and satellite rf and optical integration
topic	5G mobile communication systems. http://id.loc.gov/authorities/subjects/sh2019000281 Artificial satellites in telecommunication. http://id.loc.gov/authorities/subjects/sh85008244 Integrated optics. http://id.loc.gov/authorities/subjects/sh85067129 Communications mobiles 5G. Satellites artificiels dans les télécommunications. Optique intégrée. communications satellites. aat 5G mobile communication systems fast Artificial satellites in telecommunication fast Integrated optics fast
topic_facet	5G mobile communication systems. Artificial satellites in telecommunication. Integrated optics. Communications mobiles 5G. Satellites artificiels dans les télécommunications. Optique intégrée. communications satellites. 5G mobile communication systems Artificial satellites in telecommunication Integrated optics
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3534282
work_keys_str_mv	AT varrallgeoff 5gandsatelliterfandopticalintegration

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