We live in a time when it is easy to notice the rapid evolution of technology, which has been vital to the advancement of mobile networks.
Today, 5G technology has radically transformed the wireless landscape, allowing users to access speeds and capabilities that were previously unimaginable. A change has not only impacted personal communication but has also driven industries to enable streamlined processes. The seamless connectivity of 5G has accelerated the adoption of devices such as the Internet of Things, making our world increasingly interconnected and more efficient.
As you can see on Electronic Notes, this technology began to be implemented in 2019 when several operators worldwide began to deploy this network model, marking the beginning of a new era in wireless connections.
From then until today, the 5G infrastructure has been expanding and improving to offer faster speeds, lower latency, higher connectivity latency and greater connectivity capabilities.
The reality is that 5G has enabled us to take a major leap in performance and possibilities, taking wireless connectivity to a new level and flattening the path for numerous applications we interact with in our day-to-day lives.
With the progress of the G’s, it has been possible to improve daily. There was a time, already with 4G, when the speed was so optimal that even online games could be stopped without stopping. Players such as casino players could play their best and favorite games. Specialized sites like VegasSlotsOnline appeared with thousands of games at your fingertips, where switching from one to another is done quickly without waiting. In addition, payouts are made soon at the request of the player’s method.
Despite its many benefits, implementing 5G has faced multiple challenges, from upgrading infrastructure to make it compatible with 5G devices to increased network density and traffic, leading to substantial energy consumption. This has raised concerns about long-term sustainability, undoubtedly shifting the focus to the horizon and the next evolution with the arrival of 6G.
The launch of 6G is expected in 2030, prompting preliminary research and requirements for the upcoming 10-year cycle. Laboratory tests and trials will begin in 2028 to pave the way for commercial deployment.
Before the arrival of 6G, a transition process from 5G to 5G Advanced has been scheduled for 2024-2025. The 5G Advanced is based on the Release 18 specification of the 3GPP, while the 3GPP’s version 19 will lay the groundwork for 6G by the end of 2025.
6G will be a network that offers improvements over 5G, 4G, and 3G, focusing on using higher frequencies, exceeding 100 GHz and even reaching 1 THz. These frequencies will enable specific enhancements in the wireless experience, making 6G the perfect choice for a variety of next-generation use cases, including:
- Sensory Augmented Reality. Un
- Integration of AI, development at the edge and in the network.
- Industrial Automation for smart factory automation as BearShare says.
- Touch/Haptic Internet with the transmission of tactile sensations.
- Autonomous Vehicles, support for operation.
- Virtual Health Solutions.
Now, what are the advantages of this network?
The promises of 6G are numerous, including:
- Greater capacity, including sub-THz spectrum with a functional range of 30 to 300 GHz.
- Improved coverage and reliability, up to 99.99999% (7 9’s) thanks to the extended-spectrum.
- Higher peak speeds, reaching up to 1 terabit per second.
- Reduced latency, aiming to support microsecond latency.
- Enhanced spectral efficiency, more than triple, up to 100 bps/Hz.
- Greater mobility support, with speeds up to 1000 km/h or 600 mph, extends its transformative potential across different industries and user experiences.
Despite the ambitious nature of this new advancement in networks, 6G faces some challenges that need to be addressed with innovative solutions. These include developing new technologies capable of supporting frequencies above 100 GHz, faster processing for speeds exceeding 1 Tbps, and managing the increased energy consumption.
Now that 6G is in development, will it replace 5G or 4G LTE?
The idea is to gradually phase out 4G LTE after the commercial launch of 6G, while 5G would continue to be part of the technological landscape, at least until we evolve to the 7G network.
The adoption of 6G will depend on various factors, including how quickly operators implement the new technology and market acceptance. It is expected that 6G devices will be available in the market around 2029-2031, aligning with the formal deployment of 6G networks. This means that the availability of these devices will be linked to the development of 6G technology.
The deployment of 6G could vary from country to country, and those early adopters of 5G are likely to lead the deployment of 6G. However, it may take years for 6G to become widespread worldwide after its initial implementation.
The arrival of 6G not only represents a significant achievement in the evolution of wireless connectivity but also promises to transform how we interact with digital media. Although it will be a few years before this network becomes a reality, it is perceived as a process that will enhance the user experience, opening new opportunities within digital media.
With speeds of up to 1 terabit per second and latency reduced to microseconds, the user experience in areas such as multimedia content, online gaming, high-definition videos, virtual and augmented reality would achieve seamless fluidity. The expanded spectral capacity and increased efficiency will open new creative possibilities, allowing content transmission in ultra-high definition, which is vital for real-time content streaming.
Conclusion
6G will also enable the transformation of content distribution, making fast and reliable downloads possible and significantly boosting high-quality streaming services. In augmented and virtual reality, 6G will become an engine that helps achieve more immersive and seamless experiences, from entertainment and online gaming to applications in education and medicine. This not only changes the landscape of wireless connectivity but also becomes a key factor in redefining the digital world for the next decade.