2. Introduction:
• Vi6G (sixth-generation wireless) is the successor to 5G cellular
technology. 6G networks will be able to use higher frequencies than
5G networks and provide substantially higher capacity and much
lower latency.
3. Definition for 6G WIRELESS TECHNOLOGY:
• 6G will also promote sustainability in a variety of ways. By enabling
faster and lower cost per bit connectivity, it would be able to support
data collection and closed-loop control of numerous appliances. The
data can be analyzed using sophisticated tools to improve energy
efficiency in industries.
4. BASICS OF WIRELESS TECHNOLOGY:
• Higher achievable data rates and lower latency. …
• Spectrum and dense networks. …
• Access for everyone and everything. …
• Extreme energy performance. …
• Resilience, security and trustworthiness. …
• Dependable compute and AI integration. …
• High-precision positioning. …
• Sensing capabililities….
5. Types of 6G WIRELESS TECHNOLOGY:
• Edge computing. …
• Internet of things (IoT). …
• High-performance computing (HPC).
7. Uses of 6G Wireless Technology:
• Building and factory automation, production, e-health,
transportation, agriculture, surveillance, and smart networks all
require 6G for enhanced reliability, latency, and broad bandwidth.
With the launch of 6G, it is expected that many devices using the
internet infrastructure will be included in daily life
8. Conclusion:
• 6G is the next step in the evolution of wireless technology and is set
to revolutionize the current 5G networks. It is expected to be faster,
more efficient and more secure than the 5G networks that are
currently available.