Share on Google+
Share on Tumblr
Share on Pinterest
Share on LinkedIn
Share on Reddit
Share on XING
Share on WhatsApp
Share on Hacker News
Share on VK
Share on Telegram

6G Challenges and Enabling Technologies

Like previous generations, 6G is promising to fundamentally change how consumers and businesses communicate, enabling next-generation use cases to capitalize on the routing, speed, capacity, latency, and flexibility it offers, as well as parallel computation, visualization, and artificial intelligence developments. It is expected that only a mix of heterogeneous technologies integrated within a comprehensive system can truly answer the requirements.

1. Terahertz Technologies for Ultra-High Data Rates

To achieve the envisioned data rates of up to several Tbit/s in wireless links, bandwidths of 10 GHz and more are required. This can only be achieved at frequencies above 100 GHz, commonly known as terahertz. Transmission channels for frequencies beyond 100 GHz, especially for indoor environments and sidelink communications between vehicles in the presence of mobility, have not been sufficiently researched and new channel models need to be developed. Furthermore, higher frequencies increase the Doppler-rate, while larger bandwidths lead to hardware impairments such as phase noise and non-linearity that all need to be compensated. Novel approaches for integrated THz-transmitters with sufficient transmit-power such as, e.g., the combination of GaAs and GaN or photonic InP technologies need to be investigated. Furthermore, cost efficient packaging technologies are needed to reduce the cost of THz-modules.

2. Flexible networks for unlimited 6G availability

The combination of heterogeneous infrastructure and the demand for ubiquitous coverage requires a flexible network with tight integration of non-terrestrial network subsystems. In 6G, a more seamless integration of the various network nodes is expected compared to 5G, where only the first steps to integrate new non-terrestrial elements have been standardized. With this level of integration, truly global connectivity can be realized. Generally, three different layers (in terms of height) of network elements can be assumed: ground-based platforms, airborne platforms, and spaceborne platforms. The complexity of the network will introduce various challenges that need to be analyzed and resolved to be able to deploy such 6G systems. At the system level, it is necessary to be able to add and remove new network nodes on a dynamic basis (e.g., LEO satellites, UAVs). In addition, inter-satellite routing between all these platforms will be a challenge. The delays between platforms introduced by their motion will vary and the need for accurate positioning of all elements is imperative for proper resource and interference management in coexistence and spectrum sharing scenarios with terrestrial and non-terrestrial nodes.

Starting from the 5G core network, innovative concepts in the directions of secure end to end, trust in infrastructure, reliable and deterministic backhauls, customer state distribution and data layer need to be developed. These features come to complete the 5G architecture and provide a foundation for 6G towards a smooth end-to-end software network deployment on distributed network infrastructure.

3. Fully integrated localization in 6G networks for greater accuracy

Positioning in 6G networks is mainly driven by three technology enablers, namely massive MIMO, jointly processed coordinated multipoint transmission and ultra-dense networks that form the basis of cell-free massive MIMO systems. Cell-free massive MIMO does not take up a fixed network but dynamically changing groups of access points that follow the user. With this paradigm shift, new opportunities and challenges rise. Fixed base stations that can be used as anchors for positioning are now dynamically changing. New fitting procedures, protocols and functions need to be developed. Tighter integration of localization in 6G networks also comes with higher signaling overhead for the measurement of positional signals. Novel approaches to a common reference signal for communication and positioning are needed. Terahertz signals with very large bandwidth and ultra-dense networks offer the possibility of ultra-precise positioning (in comparison, near-precise localization is possible with millimeter-wave signals). The impact on positioning performance needs to be considered. They offer the possibility to extract interpretable decision rules, without the need for hard-to-authenticate models of the system, along with quality of service and security constraints.

Read Also:

  1. New Perspectives On 6G Use Cases
  2. On The Road To 6G
  3. Advantages Of 6G Networks
  4. Key Aspects And Diverse Use Cases Of 6G
  5. A Journey Of Mobile Networks: From 1G To 6G
  6. Introduction About 6G Networks
  7. Overall Challenges In 6G
  8. Evolution Towards 6G
95620cookie-check6G Challenges and Enabling Technologies

Leave a Reply

Your email address will not be published. Required fields are marked *

Hey!

I’m Bedrock. Discover the ultimate Minetest resource – your go-to guide for expert tutorials, stunning mods, and exclusive stories. Elevate your game with insider knowledge and tips from seasoned Minetest enthusiasts.

Join the club

Stay updated with our latest tips and other news by joining our newsletter.

Tags

Advantages Of 6G Networks A Glimpse About Artificial Intelligence (AI) In Agriculture Air Pollution And Your Health A Journey Of Mobile Networks: From 1G To 6G and Uses Artificial Intelligence (AI) In Agriculture: Current Status And Future Need Artificial Intelligence In Agriculture Artificial Intelligence In Banking Artificial Money And Its Lifecycle Benefits And Challenges Of Artificial Intelligence (AI) In Agriculture Bitcoin Money Difference between Blogging and Vlogging Disadvantages And Challenges Of Artificial Intelligence (AI) In Banking features Google Gemini What Is It Use How To Use Historical background Of Money History How Can I Support Students To Use Chatgpt To Support Their Learning Impact Of Population Growth On Environmental Degradation Indian Banks Using Artificial Intelligence (AI) Introduction: The Nature Of Money Introduction About 6G Networks Introduction About The Use Of Artificial Intelligence In Education For Academic Writing Introduction About Wi-Fi Offloading Introduction And History Of Anthropogenic Pollution Introduction To CHATGPT And Other AI Content Generation Tools In Which Language Should I Do Blogging? Hindi Or English Key Aspects And Diverse Use Cases Of 6G Role Of Artificial Intelligence (AI) In The Banking Sector See Important Information Should We Start Blogging In 2025? Or Not Similarities and Differences of Euro and Bitcoin Currencies Some Of Other Pollutants In Ecosystem The Potential Of Artificial Intelligence In Finance The Role Of Money In The Financial System Types Of Emerging Pollutants And Negative Impacts Types Of Wi-Fi Offloading What Are The Types Of Artificial Intelligence Tools What Is Blogging Business? Information Related To It Where To Get Content Ideas For Blogging? Unlimited Ideas Which One Earns More Money Which Topic Should I Start Blogging With Why Wi-Fi Offload Wi Fi Offloading Technology Overview And Approaches Wireless Networks

error: Content is protected !!

Discover more from Altechbloggers

Subscribe now to keep reading and get access to the full archive.

Continue reading