DUBLIN–(BUSINESS WIRE)–Dec 11, 2023–
The “The Global Market for 6G Communications Devices and Materials 2024-2044″ report has been added to ResearchAndMarkets.com’s providing.
The World Marketplace for 6G Communications Gadgets and Supplies 2024-2044 supplies a complete evaluation of 6G wi-fi communication applied sciences and markets.
The 6G market is poised for enormous development over the following decade, pushed by the necessity for ultra-fast and high-capacity wi-fi connectivity. 6G networks are anticipated to succeed the present 5G expertise by 2030, bringing theoretical peak speeds of 1 Tbps in comparison with 20 Gbps for 5G.
For the reason that deployment of 1G networks within the Nineteen Eighties, every era of wi-fi communication has introduced huge leaps in pace, latency and connectivity. 6G is anticipated to proceed this development with peak information charges as much as 1 Terabit per second (1 Tbps), sub 1-millisecond latency and the flexibility to concurrently join over 100 billion gadgets.
Key drivers for 6G embody connecting the Web of Every little thing, enabling high-fidelity immersive prolonged actuality, vehicle-to-everything (V2X) communication for autonomous driving, and very dense wi-fi connectivity for sensible cities.
The report analyzes 6G’s transformative affect throughout telecom, automotive, manufacturing, healthcare and different sectors. In-depth expertise evaluation covers 6G spectrum, community architectures, {hardware}, supplies like graphene and reconfigurable clever surfaces, safety, synthetic intelligence and different improvements. 38 firm profiles analyze the 6G growth, partnerships and IP panorama.
In comparison with 5G, 6G goals to supply:
- 10 to 50 instances larger information charges
- 10 to 100 instances extra related gadgets
- 99.999% reliability
- 100% protection in all places
Report contents embody:
- Evolution from 1G to 6G
- 5G limitations and 6G advantages
- 6G superior supplies and up to date {hardware}
- 6G market outlook, drivers and challenges
- 6G purposes, key geographies, gamers
- 6G authorities initiatives, roadmap, sustainability
- 6G spectrum, gadgets, providers
- THz communication applied sciences
- 6G community architectures
- World 6G structure ideas
- 6G radio system, non-terrestrial networks
- Web of Issues, edge computing, AI/ML
- Supplies and Applied sciences
- Part array antennas and modules
- Packaging, inorganic compounds, components
- Natural compounds, semiconductor supplies
- CMOS, SiGe, GaAs, InP for 6G
- Reconfigurable clever surfaces
- Metamaterials, low-loss supplies
- Cell-free Large MIMO, graphene
- Thermal administration, photoactive supplies
- Market Forecasts 2024-2040
- 6G market income forecasts
- Base station and RIS tile forecasts
- Pricing forecasts for RIS tiles
- 38 Firm Profiles. Firms profiled embody Apple, Ericsson, LG Electronics, META, Nokia, NTT Company, Samsung, and SK Telecomm.
Key Subjects Lined:
1 RESEARCH METHODOLOGY
2 EXECUTIVE SUMMARY
2.1 From 1G to 6G
2.2 Evolution from 5G Networks
2.2.1 Limitations with 5G
2.2.2 Advantages of 6G
2.2.3 Superior supplies in 6G
2.2.4 Latest {hardware} developments
2.3 Present market
2.4 Market outlook for 6G
2.4.1 Proliferation in Shopper Know-how
2.4.2 Industrial and Enterprise Transformation
2.4.3 Financial Competitiveness
2.4.4 Sustainability and Inclusion
2.5 Market drivers
2.6 Market challenges and bottlenecks
2.7 Purposes
2.7.1 Linked Autonomous Car Methods
2.7.2 Subsequent Era Industrial Automation
2.7.3 Healthcare Options
2.7.4 Immersive Prolonged Actuality Experiences
2.8 Key geographical markets for 6G
2.8.1 North America
2.8.2 Asia Pacific
2.8.3 Europe
2.9 Fundamental market gamers
2.10 6G tasks, by nation
2.11 World 6G authorities initiatives
2.12 6G {hardware} roadmap
2.13 SWOT evaluation
2.14 Sustainability in 6G
3 INTRODUCTION
3.1 6G spectrum
3.2 Purposes of 6G
3.3 6G gadgets and infrastructure
3.4 6G providers
3.5 Key applied sciences for THz communication
3.6 6G networks
3.6.1 SAGIN – Area-air-ground built-in networks
3.6.2 Underwater
3.6.3 Key Applied sciences
3.6.4 AI-powered 6G networks
3.7 World structure ideas for 6G networks
3.7.1 Cell-Free Large MIMO
3.7.2 Built-in Area and Terrestrial Networks
3.7.3 AI-Outlined Networking
3.7.4 Power Harvesting Grids
3.7.5 Seen Mild Communication
3.7.6 Quantum Backbones
3.7.7 Web of Bio-Nano Issues
3.7.8 Terahertz Mesh Networks
3.7.9 AI-Optimized Topologies
3.7.10 THz wi-fi
3.7.11 Holographic beamforming
3.7.12 Clever reflecting surfaces
3.7.13 TeraHertz amplification
3.7.14 Seen mild sensing
3.7.15 Quantum communication
3.7.16 Bio-computing networks
3.7.17 Blockchain
3.8 6G Radio system
3.8.1 Overview
3.8.1.1 Millimeter-wave (mmWave) communications
3.8.1.2 THz communications
3.8.1.3 Optical wi-fi communications
3.8.2 Bandwidth and Modulation
3.8.3 Energy consumption
3.9 6G Non-terrestrial networks
3.9.1 Overview
3.9.2 Industrial actions
3.10 Web of issues (IoT)
3.10.1 Sensible cities
3.10.2 Sensible radio environments
3.10.3 Sensible healthcare
3.10.4 Sensible grid
3.10.5 Sensible transportation
3.10.6 Sensible factories
3.10.7 Sensible farming
3.11 Edge computing
3.12 Synthetic intelligence and machine studying
4 MATERIALS AND TECHNOLOGIES
4.1 Part array antennas
4.1.1 Overview
4.1.2 Antenna varieties
4.2 Part array modules
4.2.1 Overview
4.2.2 Industrial and proof-of-concepts
4.3 Packaging applied sciences
4.3.1 Overview
4.3.2 Antenna packages
4.4 Inorganic compounds
4.4.1 Overview
4.4.2 Supplies
4.5 Components
4.5.1 Overview
4.5.2 Supplies
4.6 Natural compounds
4.6.1 Overview
4.6.2 Supplies
4.7 Semiconductor gadgets and supplies
4.8 Semiconductor applied sciences for 6G
4.8.1 CMOS
4.8.1.1 CMOS expertise – Bulk vs SOI
4.8.1.2 RF CMOS expertise
4.8.1.3 CMOS and hybrid lll-V CMOS approaches sub-THz
4.8.1.4 6G CMOS design
4.8.1.5 PD-SOI CMOS and SiGe BiCMOS for 6G
4.8.2 SiGe
4.8.2.1 RF SiGe expertise
4.8.3 GaAs and GaN
4.8.4 InP
4.8.5 Si vs III-V semiconductors
4.8.5.1 Key Variations
4.8.6 Semiconductor expertise selections for THz RF
4.8.7 Key THz Applied sciences
4.8.8 Challenges
4.9 Reconfigurable clever surfaces (RIS)
4.9.1 Overview
4.9.2 Purposes in 6G
4.9.3 Semi-passive and lively RIS supplies and parts
4.9.4 {Hardware}
4.9.5 Metamaterials and Metasurfaces
4.9.6 Liquid crystal polymers (LCP) for RIS
4.9.7 Beam administration
4.9.8 Firms
4.9.9 SWOT evaluation
4.10 Metamaterials
4.10.1 Overview
4.10.2 Purposes
4.10.2.1 Reconfigurable antennas
4.10.2.2 Wi-fi sensing
4.10.2.3 Wi-Fi/Bluetooth
4.10.2.4 5G and 6G Metasurfaces for Wi-fi Communications
4.10.2.5 Hypersurfaces
4.10.2.6 Lively materials patterning
4.10.2.7 Optical ENX metamaterials
4.10.2.8 Metamaterials for RIS
4.10.2.9 Liquid crystal polymers
4.10.3 Firms
4.10.4 SWOT evaluation
4.11 Low-loss supplies
4.11.1 Overview
4.11.2 6G low-loss supplies
4.11.3 Firms
4.11.4 SWOT evaluation
4.12 Cell-Free Large MIMO
4.12.1 Overview
4.12.2 Mobile mMIMO, community mMIMO, and cell-free mMIMO
4.13 Fiber optics
4.13.1 Overview
4.13.2 Supplies and purposes in 6G
4.14 Graphene and 2D supplies
4.14.1 Overview
4.14.2 Purposes
4.14.2.1 Supercapacitors, LiC and pseudocapacitors
4.14.2.2 Graphene transistors
4.14.2.3 Graphene THz system constructions
4.15 Thermal administration
4.15.1 Overview
4.15.2 Thermal supplies and constructions for 6G
4.15.3 Firms
4.15.4 SWOT evaluation
4.16 Sensible EM gadgets
4.16.1 Overview
4.17 Photoactive supplies
4.17.1 Overview
4.17.2 Purposes in 6G
4.18 Silicon carbide
4.18.1 Overview
4.18.2 Purposes in 6G
4.19 Part-Change Supplies
4.19.1 Overview
4.19.2 Purposes in 6G
4.20 Vanadium dioxide
4.20.1 Overview
4.20.2 Purposes in 6G
4.21 Micro- mechanics, MEMS and microfluidics
4.21.1 Overview
4.21.2 Purposes in 6G
4.22 Past communications markets and purposes
4.22.1 THz Sensing
4.22.2 THz Imaging
5 GLOBAL MARKET FORECASTS FOR 6G, 2024-2044
5.1 Market revenues
5.2 Base stations
5.3 RIS tiles
5.3.1 Pricing forecasts
5.3.2 By sq. meter
5.3.3 By revenues
6 COMPANY PROFILES (38 firm profiles)
For extra details about this report go to https://www.researchandmarkets.com/r/75l59p
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PUB: 12/11/2023 09:53 AM/DISC: 12/11/2023 09:53 AM