6G Statistics By Market Size, Usage and Facts

Introduction

6G Statistics: The push for 6G technology is growing quickly because people need faster and more reliable connections. This need is driven by things like augmented reality, self-driving cars, and the Internet of Things (IoT), which use a lot of data. To make 6G more popular, major tech companies and telecom providers are running big advertising campaigns and educational programs.

These efforts are aimed at getting more people to know about 6G and get excited about it, so they build more interest in the upcoming technology. We shall shed more light on 6G Statistics through this article.

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• By 2028, North America is expected to have the largest share of the 6G market, with an estimated market size of about USD 364.12 million.
• By 2028, the data volume will increase even more. Along with faster speeds and lower delays, 6G will also improve the ability to handle more data and support more devices. This will be important for keeping networks working properly.
• China, Japan, and South Korea are leading the way, using their tech expertise to build 6G networks.
• Expanding the bandwidth here is difficult, but new bands between 1 GHz and 7 GHz are being considered for 5G and 6G.
• 6G Statistics stated that some of the new bands being explored include 3.3–3.4 GHz, 3.6–3.8 GHz, and 6.425–7.025 GHz, with some already set to be used worldwide.

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What is a 6G Network?

6G is the next generation of wireless technology that will follow 5G. Right now, it’s still being developed and is expected to replace 5G (IMT-2020). The International Telecommunication Union (ITU) is keeping track of 6G’s progress, and its development is guided by certain standards outlined in ITU-R M.2160-0.

Many companies and organizations, such as Airtel, Apple, Huawei, Samsung, and Ericsson, along with research institutes and countries like the US, China, Japan, South Korea, and EU members, are working on creating 6G networks.

6G will be much faster than 5G because of advancements in technology. It will improve radio interface and network technology and offer new types of connections like satellite and WiFi. 6G will also provide more accurate location services and better support for sensors, AR/VR (augmented and virtual reality), and AI (artificial intelligence). The goal is for 6G to have lower latency (faster response time), be more energy-efficient, and work better with other networks.

One of the aims of 6G is to make the network simpler, more flexible, and decentralized. This could mean sharing infrastructure, using local spectrum licenses, and using machine learning or AI to help manage it.

The Next Generation Mobile Networks (NGMN) Alliance has said that 6G should not require an entire upgrade of 5G infrastructure and must focus on meeting real customer needs. 6G is expected to start rolling out in the early 2030s, but it’s still unclear which specific features will be introduced first.

General 6G Statistics

• The global 6G market is expected to grow significantly, reaching around USD 98.2 billion by 2033, up from USD 5.8 billion in 2023. This growth represents a compound annual growth rate (CAGR) of 32.7% from 2024 to 2033.
• By 2028, North America is expected to have the largest share of the 6G market, with an estimated market size of about USD 364.12 million.
• For 6G, the spectrum will mainly focus on the upper mid-band (also known as FR3), which covers frequencies from 7 to 24 GHz. The frequency range from 7 to 15 GHz is particularly valuable because it has signal characteristics similar to those of lower frequencies.
• The bandwidths of up to 20 GHz are being researched for 6G, although they present significant technical challenges.

(Reference: statista.com)

• 5G mobile broadband technology is currently the fastest connection standard, offering peak data speeds of 20 gigabits per second (Gbit/s).
• Although 5G is still being introduced worldwide, work on 6G technology is already in progress. 6G is expected to deliver peak data speeds of 1,000 Gbit/s, which is much faster than 5G.
• 6G is expected to achieve a data rate of 1 terabit per second (TBPS), a huge leap from the 100-1000 Mbps speeds of 5G, which will dramatically increase data transmission speeds.
• By 2030, investments in 6G transport networks are expected to reach USD 505 million.
• The number of IoT devices is expected to reach more than 24 billion by 2025, and the amount of data these devices generate will grow a lot in the next few years.
• By 2028, the data volume will increase even more. Along with faster speeds and lower delays, 6G will also improve the ability to handle more data and support more devices. This will be important for keeping networks working properly.
• With 5G, networks can connect up to 1 million devices per square kilometer (km²).
• But 6G will be able to handle 10 million devices per km², which is ten times more.
• This will allow for new applications that use a lot of data across many devices.
• The exact technical details of 6G are still being figured out, and many of its uses will only become clear after we fully understand the limits of 5G.
• 6G Statistics stated that Companies like Nokia, Samsung, LG, Huawei, ZTE, and many researchers are looking into 5G’s weaknesses and trying to find solutions for the challenges 6G faces.
• Work is already happening. Studies have been published, major telecom companies have shared their ideas for 6G, and in November 2020, China launched the world’s first 6G test satellite. The FCC has also opened up the terahertz frequency range for testing.
• Before 6G can be rolled out widely, international organizations like ITU and 3GPP will need to agree on the technology’s standards.
• The way engineers and researchers solve the problems with 6G will decide if it can meet the high expectations set for it.

6G Market Size

• The global 6G market is expected to grow from USD 4.6 billion in 2030 to USD 69.3 billion by 2035, with a CAGR of 77.2% from 2024 to 2033.

• The APAC region holds a dominant position in the global 6G market, driven by rapid technological advancements and significant investments in 6G technologies.
• The Consumer segment captured a substantial share of the market in 2023, driven by increased demand for faster data speeds and more reliable connections.
• The Manufacturing segment also showed strong performance in 2023, reflecting the sector’s need for advanced communication technologies for smart manufacturing and industrial automation.
• The Korean government plans to expedite the commercial launch of the 6G network by two years under the K-Network 2030 initiative, aiming to acquire cutting-edge 6G technologies and enhance the network supply chain.
• The exploration of 6G technology focuses on spectrum allocation in the upper mid-band (7 to 24 GHz), with frequencies between 7 and 15 GHz being particularly advantageous due to their favorable propagation characteristics.
• Bandwidths extending up to 20 GHz are being considered for 6G, despite technical challenges, to enable data rates of 1 terabit per second (TBPS), a significant increase from the 100-1000 Mbps data rates of 5G.
• By 2030, 6G technology is expected to achieve peak data rates of 1000 Gbps, with an estimated investment of USD 505 million in 6G transport networks.
• China leads global 6G patent applications, accounting for 35% (over 13,000 filings).
• The United States follows closely with 35.2% of global 6G patent filings.
• Japan holds 9.9% of the global 6G patent filings.
• The European 6G market is expected to reach approximately USD 216.21 million.
• The Asia Pacific & Japan region is projected to reach USD 91.66 million in the 6G market.
• Contributions from the United Kingdom to the 6G market are expected to be around USD 57.01 million.
• The Middle East & Africa region is expected to see a 6G market size of approximately USD 39.83 million.
• South America is projected to account for USD 26.69 million in the 6G market.

6G Component Statistics

(Source: datahorizzonresearch.com)

• 5G is the fastest mobile connection available today, with speeds reaching up to 20 gigabits per second (Gbit/s).
• While 5G is still being introduced around the world, work on 6G technology is already in progress.
• 6G is expected to offer much faster speeds, reaching up to 1,000 Gbit/s, which is 50 times faster than 5G.

Regional 6G Statistics

(Source: 6gworld.com)

North America: Leading with a 35.2% Growth Rate

• North America, especially the United States, is a key player in the global 6G market.
• The region benefits from strong research and development, along with big investments in new technologies.
• With top telecom and tech companies, it’s a place where innovation thrives.
• 6G Statistics stated that Government support, like funding for advanced communication research, strengthens the US’s position in shaping the future of 6G, helping to create new networks and applications.

(Reference: scoop.market.us)

Asia-Pacific: Rapid Growth in India and China

• The Asia-Pacific region is expected to grow the fastest in the 6G market, driven by fast technological progress and big investments in telecom infrastructure.
• China, Japan, and South Korea are leading the way, using their tech expertise to build 6G networks.
• The region’s focus on improving connectivity with both government and private sector investments makes it an important part of the global 6G scene.

(Source: marketsandmarkets.com)

#1. US:

• The US is at the forefront of 6G development, with massive investments from companies like Qualcomm and Verizon, who are putting billions into innovative technologies.
• In 2021, the Biden administration committed $2.5 billion to advance 6G, focusing on combining AI and IoT in future networks, making the US a leader in next-gen telecom.

#2. China:

• 6G Statistics stated that China’s 6G market is growing quickly, with major investments from both the government and private companies.
• In 2024, Huawei announced a $1.4 billion investment in 5G/6G and self-driving car research, creating a new R&D center in Shanghai to push forward next-gen telecom tech.

(Source: telecomreviewasia.com)

#3. Japan:

• Japan is actively developing 6G, with the Ministry of Internal Affairs and Communications investing $450 million in 6G research, available to private investors.
• Big companies like NTT Docomo and Fujitsu are focusing on wireless technologies and advanced communications.

#4. South Korea:

• South Korea is making major progress in 6G, with the government pledging 200 billion won (about $170 million) for research from 2021 to 2026.
• The country expects to launch its first commercial 6G networks by 2026, focusing on technologies like self-driving cars and smart cities.

#5. Germany:

• 6G Statistics stated that Germany aims to lead in digital tech, investing 700 million euros into 6G research through the Federal Ministry of Education and Research.
• The country is working on projects that use AI and IoT for better connectivity and plans to standardize 6G by 2025.

#6. India:

• India is making progress in 6G, with the government investing INR 2,240 million into a 6G Test Bed developed with IITs.
• This effort aims to boost research and innovation, to launch 6G services by 2025.

#7. Canada:

• Canada is growing in the 6G sector, with a focus on R&D investments.
• In April 2023, the Canadian government and Ericsson announced a $470 million plan to build R&D centers for 5G and 6G, positioning Canada as a global research hub and creating jobs in Ottawa and Montréal.

#8. Australia:

• 6G Statistics stated that Australia’s 6G market is on the rise, with predictions that by 2030, 90% of mobile subscribers will be using 5G and 6G networks.
• As smartphone use is expected to reach 23.6 million by 2026, Australia is working on building a strong 6G infrastructure to meet the increasing demand and strengthen its digital economy.

6G Spectrum Landscape Statistics

The exact spectrum for 6G is still being decided, but three main frequency ranges are being considered for its use.

(Source: networkcomputing.com)

Upper Mid-Band (7–24 GHz):

• This range is sometimes called “FR3”.
• Frequencies between 7 and 15 GHz are particularly useful because they have similar signal qualities to frequencies below 7 GHz.
• These signals are better at passing through buildings and other structures, improving indoor coverage.
• This helps network operators increase capacity without having to build a lot of new cell sites, unlike the higher-frequency millimeter-wave (mmWave) spectrum, which needs more infrastructure.

Sub-Terahertz Bands (90–300 GHz):

• These frequencies offer large amounts of uninterrupted spectrum, which is ideal for 6G.
• They can support data speeds higher than 100 Gbps, which is important for apps that need very fast data transfers.
• Even though there are technical challenges to using these bands, they have the potential for advanced applications like communications from space to Earth, 3D video and audio, and complex sensing technologies.
• Specific ranges being looked at are 90-110 GHz (W band) and 110-170 GHz (D band).

Lower Bands (Below 7 GHz):

• Frequencies from 600 MHz to 900 MHz are still key for wide-area coverage because they travel far and go through both indoor and outdoor environments easily.
• These lower bands are important for rural areas and for keeping coverage at the edges of cell networks.
• 6G Statistics stated that Expanding the bandwidth here is difficult, but new bands between 1 GHz and 7 GHz are being considered for 5G and 6G.
• Some of the new bands being explored include 3.3–3.4 GHz, 3.6–3.8 GHz, and 6.425–7.025 GHz, with some already set to be used worldwide.

Challenges of 6G Network

• Moving from 5G to 6G will require big improvements in technology, including areas like terahertz communication, better antennas, and AI-driven network management.
• Turning these ideas into real-world technology will be difficult and will need a lot of research, testing, and teamwork across different fields.
• One major challenge is using extremely high-frequency bands, like terahertz, which come with strict rules because they could interfere with existing services.
• Managing global rules for these frequencies without causing problems will be a big task.

(Source: maximizemarketresearch.com)

• Building the infrastructure for 6G, including base stations, antennas, and networks, will need a lot of money.
• On top of that, 6G might require upgrading or replacing current 5G or 4G equipment, which makes the financial side of these changes tricky for everyone involved.
• Making sure 6G networks and devices work well together is important, so creating global standards is key.
• But it’s hard to make rules that work for all the new technologies and uses of 6G without confusion.
• Getting companies and standards groups to agree will take careful planning.
• 6G Statistics stated that 6G would bring a huge increase in data usage and the number of connected devices, which could put pressure on energy resources and affect environmental goals.
• Designing systems that use less energy, improving how networks work, and finding new ways to save energy while keeping performance high are big challenges.
• The growth of AI, edge computing, and many more connected devices in 6G will also create new security and privacy concerns.
• Protecting data, devices, and communication from online threats, keeping information safe with strong encryption, and ensuring privacy in such a connected world will be tough.
• Finally, 6G technology is complicated, so we’ll need highly skilled workers to build, manage, and run these systems.
• To close the skill gap, there will need to be education and training programs, as well as partnerships between the industry and schools, to develop the right talent to handle 6G’s challenges.

Future of The World with 6G

• We imagine a future where the physical and digital worlds are fully connected, sustainable, and programmable, with intelligent machines and the Internet of Senses helping people in their daily lives.
• Some key uses of 6G include universal healthcare, personalized health services, smart farming, monitoring the planet, digital twins (virtual copies of real-world objects), collaborative robots (cobots), and robot navigation.
• These uses can be grouped into three main categories: the Internet of Senses, connected smart machines, and a connected sustainable world.
• In the “Internet of Senses” scenario, 6G will allow people to interact as if they were in the same location, no matter how far apart they are.
• With extended reality (XR) technology, people will experience lifelike sensory feedback.
• This will require fast data speeds, high capacity, accurate location tracking, and minimal delays, all powered by edge cloud computing.
• For example, in public transportation, each passenger could have their own virtual experience, like running errands, getting guidance, or playing games overlaid in the real world.
• 6G Statistics stated that 6G Statistics stated that Personal devices that interact with the body will let people experience remote activities, improving communication.
• At the same time, 6G will introduce new ways to communicate, with strict control over access and identity.
• To connect the digital and physical worlds, we’ll need many sensors that send real-time data to update digital models.
• 6G Statistics stated that Machines in the real world will carry out actions based on the digital data they receive.
• The 6G network will provide constant intelligence, connectivity, and synchronization, seamlessly linking the digital and physical worlds.
• This will support smart machines, immersive experiences, and a more sustainable, connected world.

6G Telecom Market

• The global 6G telecom market is projected to grow from USD 42.5 billion in 2023 to USD 693.0 billion by 2033, with a CAGR of 32.2% during the forecast period from 2024 to 2033.
• 6G technology is expected to achieve peak data rates of 1000 Gbps (1 Tbps), significantly surpassing the 20 Gbps peak of 5G.
• Data rates for 6G are projected to reach 1000 Mbps (1 Gbps), a tenfold increase from the typical 100 Mbps of 5G.
• The World Radiocommunication Conference 2023 (WRC-23) identified key frequency bands for 6G, including 3.3-3.4 GHz, 3.6-3.8 GHz, and 6.425-7.125 GHz, improving spectrum efficiency.
• South Korea has allocated USD 130 million for 5G and 6G research, with a pre-6G demonstration planned by 2026.
• China leads in 6G patents, driven by major R&D efforts from companies such as Huawei and China Mobile.
• The United States, through the Next G Alliance, is leading 6G research and forming strategic agreements for standardization.
• Mobile devices dominate the device segment with a 34.3% market share, driven by the increasing adoption of smartphones and tablets.
• Wireless communication infrastructure holds 56.2% of the market, benefiting from the widespread deployment of wireless networks.
• Terahertz communication technology dominates the technology segment, holding 44.6% of the market, fueled by advancements in high-frequency communication technologies.
• The consumer application segment leads the end-user market, with a share of 53.4%, due to the high demand for enhanced mobile broadband services.
• North America holds the dominant regional market share with 37.2%, attributed to early technology adoption and the presence of major industry players.

Conclusion

6G technology is a big leap in wireless communication, offering faster data speeds, less delay, and exciting new possibilities. It could change many industries by enabling advanced technologies like augmented reality (AR), virtual reality (VR), and the Internet of Things (IoT), improving how we connect and interact digitally.

As we work on developing and launching 6G, we must also focus on challenges, especially when it comes to protecting privacy and ensuring security. To make the most of 6G for society, it’s crucial to have strong safety measures in place as the technology grows.