Integration of MTC and Satellites for IoT toward 6G Era (eBook)
500 Seiten
Wiley-IEEE Press (Verlag)
978-1-119-98214-2 (ISBN)
Comprehensive and authoritative resource paving the way for the integration of machine-type communications (MTC) and satellite connectivity toward 6G era
This book focuses on the integration of machine-type communications (MTC) and satellite connectivity toward the 6th generation of mobile systems (i.e., the '6G'). Integrating these two technologies, especially within the emerging direct-to-satellite (DtS) concept employing direct connectivity between an MTC terminal and a satellite-based gateway, will be critical in enabling the future Internet of Things (IoT) applications in remote areas with limited connectivity infrastructure available. To this end, the book delivers an in-depth analysis of the drivers, use cases, scenarios, technical aspects, cybersecurity, and mechanisms spanning from the physical layer (PHY) to the application layer, regulation, standardization, and potential business models. In addition, many examples, illustrative figures, and tables support the text.
With each chapter written by renowned experts in the field, Integration of MTC and Satellites for IoT toward 6G era contains information on:
- How to enable wireless connectivity for MTC/IoT devices in remote areas, which hardware and network architectures can be employed, and their pros and cons
- Fundamental and practical challenges, design dimensions, and perspective technologies for integrated MTC and satellite systems
- Applications and business areas that would be the first ones to employ DtS and status of standardization and regulation activities in the field
The strong tutorial element makes the Integration of MTC and Satellites for IoT toward 6G era a convenient learning resource for students and educators in higher education institutions. Moreover, it is ideal for students obtaining their first professional degree and experts who operate in this or adjacent fields and want to revise and update their knowledge.
Hirley Alves is an Associate Professor, Head of the Machine-type Wireless Communications Group, and Coordinator of the 6G Flagship Strategic Research Area 1 - Massive Wireless Automation at the Centre for Wireless Communications, University of Oulu.
Konstantin Mikhaylov is an Assistant Professor in the field of Convergent IoT Communications for Vertical Systems at the Centre for Wireless Communications, University of Oulu.
Marko Höyhtyä is a Research Professor at the VTT Technical Research Centre of Finland Ltd and an Associate Professor at the Finnish National Defence University.
Acronyms
- 3D
- Three‐Dimensional
- 3GPP
- 3rd Generation Partnership Project
- 4G
- Fourth Generation of Broadband Cellular Network Technology
- 5G
- Fifth Generation Standard for Broadband Cellular Networks
- 5GC
- 5G Core Network
- 5GNR
- Fifth‐Generation New Radio
- 6G
- Sixth Generation of Cellular Networks
- 6LoWPAN
- IPv6 over Low‐Power Wireless Personal Area Networks
- ACM
- Adaptive Coding and Modulation
- ADR
- Adaptive Data Rate
- AFC
- Automated Frequency Coordination
- AH
- Authentication Header
- AI
- Artificial Intelligence
- AirComp
- Over‐the‐Air Computation
- AKA
- Authentication and Key Management
- AMF
- Access and Mobility Function
- AMQP
- Advanced Message Queuing Protocol
- ANR
- Automatic Neighbor Relations
- AODV
- Ad Hoc On‐Demand Distance Vector
- API
- Application Programming Interface
- ARP
- Address Resolution Protocol
- ARPU
- Average Revenue Per User
- ARQ
- Automatic Repeat Request
- ASTOS
- Analysis Simulation and Trajectory Optimization Software
- AWGN
- Additive White Gaussian Noise
- B2B
- Business to Business
- BER
- Bit Error Rate
- BGP
- Border Gateway Protocol
- BLE
- Bluetooth Low Energy
- BP
- Bundle Protocol
- bps
- Bits Per Second
- BSS
- Broadcast Satellite Service
- BTP
- Basic Transport Protocol
- BW
- Bandwidth
- C‐V2X
- Cellular Vehicle‐to‐Everything
- CAGR
- Compound Annual Growth Rate
- CAM
- Cooperative Awareness Message
- CAT
- Category
- CBR
- Constant Bit Rate
- CCSDS
- Consultative Committee for Space Data Systems
- CFO
- Carrier Frequency Offset
- CFS
- Contention‐Free Shared
- CGC
- Complementary Ground Component
- CHO
- Conditional HO
- CINR
- Carrier‐to‐Interference‐Plus‐Noise Ratio
- CIoT
- Cellular Internet‐of‐Things
- CIR
- Carrier‐to‐Interference Ratio
- CL
- Clutter Loss
- cMTC
- Critical MTC
- CN
- Core Network
- CNFs
- Cloud‐Native Network Functions
- CNN
- Convolutional Neural Network
- CNR
- Carrier‐to‐Noise Ratio
- Co‐IoT
- Collaborative Internet‐of‐Things
- CoAP
- Constrained Application Protocol
- ComSec
- Communication Security
- COTS
- Commercial Off‐the‐Shelf
- CP
- Cyclic Prefix
- CPU
- Central Processing Unit
- CR
- Cognitive Radio
- CRDSA
- Contention Resolution Diversity Slotted Aloha
- CS
- Circuit Switched
- CSA
- Coded Slotted ALOHA
- CSMA
- Carrier Sense Multiple Access
- CSMA/CA
- Carrier Sense Multiple Access with Collision Avoidance
- CSOC
- Cybersecurity Operations Centers
- CSS
- Chirp Spread Spectrum
- CU
- Centralized Unit
- D2D
- Device‐to‐Device
- DAMA
- Demand Assignment Multiple Access
- DC
- Direct Current
- DCo
- Discontinuous Coverage
- DDoS
- Distributed Denial‐of‐Service
- DENM
- Decentralized Environmental Notification Message
- DL
- Downlink
- DMRS
- Demodulation Reference Signal
- DoNAS
- Data over Non‐access Stratum
- DoS
- Denial‐of‐Service
- DSA
- Dynamic Spectrum Access
- DSALOHA
- Diversity Slotted ALOHA
- DSDV
- Destination‐Sequenced Distance Vector
- DSP
- Digital Signal Processing
- DSR
- Dynamic Source Routing
- DTN
- Delay‐ and Disruption‐Tolerant Networking
- DtS
- Direct‐to‐Satellite
- DU
- Distributed Unit
- DVB‐RCS2
- Digital Video Broadcasting‐Second‐Generation Return Channel Satellite
- DVB‐S2x
- Digital Video Broadcasting‐Second‐Generation Satellite
- DYMO
- Dynamic MANET On‐Demand
- E2E
- End‐to‐End
- ECEF
- Earth‐Centered Earth‐Fixed
- ED
- End Device
- EDT
- Early Data Transmission
- EESS
- Earth Exploration Satellite Service
- EIRP
- Equivalent Isotropically Radiated Power
- eMBB
- Enhanced Mobile Broadband
- EMC
- Electromagnetic Compatibility
- eMTC
- Enhanced MTC
- eNB
- Evolved Node B
- EO
- Earth Observation
- EPC
- Evolved Packet Core
- EPS
- Evolved Packet System
- ESA
- European Space Agency
- eSIM
- Embedded Subscriber Identity Module
- ESOC
- European Space Operations Centre
- ESP
- Encapsulating Security Payload
- ESTNeT
- Event‐Driven Space–Terrestrial Network Testbed
- FDD
- Frequency‐Division Duplex
- FDMA
- Frequency‐Division Multiple Access
- FFR
- Full Frequency Reuse
- FOTA
- Firmware Over‐the‐Air
- FoV
- Field of View
- FPGA
- Field‐Programmable Gate Array
- FR
- Frequency Reuse
- FSL
- Free Space Loss
- FSS
- Fixed Satellite Service
- GEO
- Geostationary Earth Orbit
- GMAT
- General Mission Analysis Tool
- gNB
- gNodeB
- GNSS
- Global Navigation Satellite System
- GPL
- GNU General Public License
- GPS
- Global Positioning System
- GS
- Ground Station
- GSE
- Generic Stream Encapsulation
- GSLs
- Ground‐to‐Satellite Links
- GSMA
- GSM Association
- GSO
- Geostationary Orbit
- GSOA
- Global Satellite Operator Association
- GTP
- GPRS Tunneling Protocol
- GUI
- Graphical User Interface
- GW
- Gateway
- HAPS
- High‐Altitude Platform System
- HARQ
- Hybrid Automatic Repeat Request
- HD
- High Definition
- HEO
- Highly Elliptical Orbit
- HO
- Hand Over
- HPBW
- Half‐Power beamwidth
- HPLMN
- Home PLMN
- HTS
- High‐Throughput Satellites
- HTTP
- Hypertext Transfer Protocol
- IAB
- Integrated Access and Backhaul
- ICI
- Intercarrier Interference
- ICMP
- Internet Control Message Protocol
- ICT
- Information and Communication Technology
- IETF
- Internet Engineering Task Force
- IFIC
- International Frequency Information Circular
- IIoT
- Industrial IoT
- IKE
- Transport Key Exchange
- IMS
- IP Multimedia System
- IMT
- International Mobile Telecommunications
- IoT
- Internet of Things
- IP
- Internet Protocol
- IPsec
- Internet Protocol Security
- IQ
- In‐Phase/Quadrature
- IRSA
- Irregular Repetition Slotted ALOHA
- ISL
- Inter‐satellite Link
- ISM
- Industrial, Scientific, and Medical
- ITU
- International Telecommunication Unit
- ITU‐R
- International Telecommunication Unit‐Radiocommunication Sector
- KPI
- Key Performance Indicator
- KPIs
- Key Performance Indicators
- KVI
- Key Value Indicator
- LBT
- Listen‐Before‐Talk
- LEO
- Low Earth Orbit
- LMS
- Land‐Mobile Satellite
- LoRa
- Long Range
- LoRaWAN
- Long‐Range Wide‐Area Network
- LOS
- Line‐of‐Sight
- LoWPAN
- Low‐Power Wireless Personal Area Network
- LPWA
- Low‐Power Wide Area
- LPWAN
- Low‐Power Wide‐Area Network
- LR‐FHSS
- Long‐Range Frequency Hopping Spread Spectrum
- LSA
- Licensed Shared Access
- LTE
- Long‐Term Evolution
- LTE‐M
- Long‐Term Evolution Machine‐Type Communication
- LWM2M
- Lightweight M2M
- M‐MIMO
- Massive Multiple‐Inputs Multiple‐Outputs
- M2M
- Machine‐to‐Machine
- MAC
- Medium Access Control
- MANET
- Mobile Ad Hoc Network
- MANO
- Management and Orchestration
- MAP
- Mobile Application Part
- MASS
- Maritime Autonomous Surface Ship
- MBMS
- Multimedia Broadcast & Multicast Service
- MCL
- Maximum Coupling Loss
- MCS
- Modulation and Coding Scheme
- MEC
- Multi‐access Edge Computing
- MEO
- Medium Earth Orbit
- MIB
- Master Information Block
- MIFR
- ...
| Erscheint lt. Verlag | 4.7.2024 |
|---|---|
| Sprache | englisch |
| Themenwelt | Technik |
| ISBN-10 | 1-119-98214-6 / 1119982146 |
| ISBN-13 | 978-1-119-98214-2 / 9781119982142 |
| Haben Sie eine Frage zum Produkt? |
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