Integration of MTC and Satellites for IoT toward 6G Era (eBook)

Hirley Alves, Marko Hoyhtya, Konstantin Mikhaylov (Herausgeber)

eBook Download: EPUB

2024 | 1. Auflage
500 Seiten
Wiley (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.

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.

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 ► Elektrotechnik / Energietechnik
ISBN-10	1-119-98214-6 / 1119982146
ISBN-13	978-1-119-98214-2 / 9781119982142

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