6G communication service aiming for initial commercialization in 2030

dublin, March 5, 2024 /PRNewswire/ — “6G Technology Development in 6th Generation Wireless (Investment, R&D, Testing) and 6G Market Commercialization (Infrastructure, Deployment, Apps and Services) by Use Case and Industry 2024-2030” report Added. ResearchAndMarkets.com Recruitment.

This report assesses the commercialization of the 6G market, including infrastructure development and equipment deployment opportunities, as well as application and service enablement. This report also analyzes his 6G market use cases by industry. This report presents the 6G market size from 2024 to 2030, with the lower end of the range mainly focusing on technology development and the lower end of the range focusing on the commercialization of the 6G market. Masu.

Select report results:

• 6G communication services will achieve initial commercialization in 2030
• Pre-commercial 6G infrastructure and testbed market nearly achieved 5 billion dollars By 2030
• of Asia Pacific The region will lead investment in 6G core and RF, followed by united states of america and Europe
• 6G technology is best characterized as ultra-secure, ultra-fast, ultra-reliable, and ultra-short-range oriented.
• Network optimization beyond 5G relies on smart surfaces with 6G network and device solutions. $16 billion By 2035
• Post-commercial investment in 6G technology will be dominated by short-range wireless use cases and peer-to-peer networking.
• 6G wireless will drive a new wave of electronics innovations such as device power management, miniaturization, networking, and edge computing.
• Communication in 6G relies on device peering for short-chain connections for short-range communication and long-chain connections for fronthaul and backhaul.

6G wireless technology

A battle to influence 6G standards is underway as Western countries and their allies worry that authoritarian regimes could further control their countries’ internets. The US government is Australia, Canada, Czech Republic, Finland, France, Japan, South Korea, Sweden The UK issued a joint statement saying that by working together, we can “support connectivity that is open, free, global, interoperable, reliable, resilient and secure”.

Extending the trend that started with technologies that support 5G capabilities, 6G will integrate with a set of previously disparate technologies. Several key technologies will be integrated into 6G, including AI, big data analytics, and next-generation computing. 6G networks will extend the performance of existing 5G capabilities as well as expand their range to support increasingly new and innovative applications across the fields of communications, sensing, radio perception, and imaging.

5G utilizes millimeter waves in the microwave frequency range, while 6G utilizes even smaller wavelengths in the terahertz (THz) band, ranging from 100 GHz to 3 THz. While the impact of 5G on Radio Access Networks (RAN) is significant, it will be even greater for 6G networks, driven primarily by a significant increase in frequency, driving the need for antennas virtually everywhere.

Just as 5G has had and continues to have many challenges, 6G will also have many new challenges. One of those challenges is the development of commercial transceivers for THz frequencies. This is primarily an area where electronic component providers must innovate. For example, a semiconductor provider must deal with very short wavelengths and correspondingly small physical sizes of RF transistors and how they work with the element spacing of his THz antenna arrays.

6G wireless also leverages entirely new RAN approaches to increase bandwidth and reduce latency, such as sub-THz radio frequencies and visible light spectrum, and leverages features of existing radio methods, such as advanced MIMO technology to improve spectral efficiency. Reinforcement is also utilized. This includes several innovative methods such as angular momentum multiplexing, the combination of multi-RAT and 3D multi-link connectivity, as well as the deployment of ultra-dense wireless access points, such as the hyperextension of small cell concepts in HetNet environments. included.

Terahertz radio propagation for 6G communications

Many new technologies and solution approaches will emerge to enable terahertz-level wireless. For example, next-generation 6G communications will require ultra-fast radio chips to achieve frequencies of up to 20THz. Metastructures are etched and patterned at subwavelength distances onto semiconductors made of gallium nitride and indium gallium nitride. These allow control of the electric field within the device.

This approach to semiconductor design already enables up to 100 Gbit/s at terahertz frequencies, which represents a 10x improvement compared to 5G communications. Effective use of these high frequencies also requires innovation in the implementation of smart antennas. For example, we need reconfigurable antennas whose characteristics such as frequency and radiation beam can be adjusted in real time.

Sub-terahertz wireless 6G solution

Although 6G wireless promises dramatically higher data speeds than 5G advanced through terahertz frequencies, sub-THz communications is a very important interim solution area. For example, the frequency range from 7.125 GHz to 24.25 GHz has been highlighted as a potential additional spectrum for 6G and is already informally referred to as FR3. This wavelength is attractive compared to his FR2 frequency. It is less susceptible to attenuation, simplifies coverage, and contains enough unallocated frequencies to support wider channels than FR1 (100 MHz).

6G and smart surface technology

As discussed in the previous version of this 6G market report, smart surfaces are key to the long-term success of 6G wireless. Specifically, Reconfigurable Intelligent Surface (RIS) technology allows for better control of electromagnetic waves within wireless propagation channels by leveraging properties of metamaterials not found in natural materials. Performance improves dramatically.

RIS is extremely important in the 6G market, especially in the high frequency range, as propagation losses can be up to 2,000 times higher than 5G commercial frequencies. However, his current RIS engineering approach provides up to 40% improvement compared to non-RIS-based systems. The use of RIS is important for his 6G in urban environments, especially indoor wireless for enterprise and industrial solutions.

6G and artificial intelligence

6G networks will leverage the existing infrastructure of 5G, but differentiate themselves by using very high frequency waves to transmit more data faster, and will also incorporate artificial intelligence with machine learning. Masu. Machine learning and AI-based network automation are essential to simplify network management and optimization.

6G allows users to transfer data instantly, eliminating buffering, delays, and disconnections. Just as 2G provided text messaging and 4G introduced entire mobile app systems, 6G will enhance machine-to-machine communication and improve interoperability in the age of “smart” Internet of Things. .

In this way, 6G will provide super communication and ubiquitous information, provide converged computing services, and become the foundation for an interconnected and integrated physical and digital world. 6G allows applications to “sense” their surroundings, turning the network into a “sixth sense” tool.

Main topics covered:

1.executive summary

2. Introduction
2.1 6G Wireless Definition
2.1.1 6G Key Performance Indicators
2.2 6G Roadmap: Evolution to 6G Wireless Networks
2.3 5G Evolution, 5G Context, and Beyond 6G
2.4 6G Network Elements
2.5 6G Features and Benefits
2.6 Advantages of 6G technology
2.7 6G Market Drivers and Challenges
2.7.1 Growth factors of 6G market
2.8 6G Business Model
2.9 6G value chain
2.10 Expected impact of 6G on industry and society
2.11 6G research efforts and industrial development

3. 6G technology considerations
3.1 6G spectrum evolution
3.2 6G Network Management and Orchestration
3.3 6G communication infrastructure
3.4 6G communication technology
3.5 Technologies that make 6G possible
3.6 6G R&D investment
3.7 6G Testbed for Technology Acceptance and Market Development

4. 6G infrastructure market
4.1 Core Infrastructure
4.2 Radio equipment
4.3 Computing equipment
4.4 Transport network

5. 6G semiconductor market
5.1 6G chipset
5.2 Terahertz receiver

6. 6G device market
6.1 Smartphones and other handheld devices
6.2 Wearables and implantables
6.3 Modems, gateways, and access points
6.4 Vehicle communication
6.5 Building and Facility Communication

7. 6G materials market

8. 6G solution field
8.1 6G communication
8.2 6G Sensing
8.3 6G Imaging
8.4 6G Precise Location Information

9. 6G use cases and anticipated applications
9.1 Volume Media Streaming
9.2 Connected Manufacturing and Automation
9.3 Multisensory Augmented Reality
9.4 Next Generation Healthcare
9.5 Communication for Brain-Computer Integration
9.6 Connected Robotics and Autonomous Systems
9.7 Transmission of five sense information
9.8 All Internet

10. Synergies between 6G and next-generation computing
10.1 Multi-access edge computing
10.2 High Performance Computing
10.3 Quantum Computing

11. 6G Technology Company Analysis

• AT&T
• auto talk
• Broadcom Co., Ltd.
• china telecom
• china unicom
• Cisco Systems
• corning company
• DARPA
• deep sig
• Ericsson
• Meta (Facebook)
• federated wireless
• Fujitsu
• Google
• huawei
• interdigital
• Karlsruhe Institute of Technology
• keysight technology
• LG Corporation
• media tech
• motorola solutions
• Nanyang Technological University
• National Science Foundation
• Nokia (bell laboratories)
• NEC
• NTT Docomo
• Nvidia
• new york university wireless
• orange
• NGMN Alliance
• Qualcomm
• samsung electronics
• SK Telecom
• T-mobile
• Technical University of Braunschweig
• Com Center (University of California)
• University of Oulu (6G Flagship)
• virginia diode
• national instrument company
• Virginia Tech
• verizon wireless
• ZTE
• Reliance Jio Infocomm Limited

12. 6G Market Analysis and Forecast 2024-2030
12.1 Network, device, and computing cost considerations
12.2 6G Infrastructure Market 2024-2030
12.3 6G Infrastructure Unit Deployment 2024-2030
12.4 6G Testbed Market 2024-2030
12.5 6G Investment 2024-2030

For more information on this report, please visit https://www.researchandmarkets.com/r/beubp3.

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