wireless communication of network optimization, handover, and interference should be able to. exploit the concepts of big data to facilitate these operations. Providing other add-ons such as.queuing, scheduling, handover, and protocols that will meet the needs of 6G networks.
Seamless handover in wireless networks is to guarantee both service continuity and service quality. In WiMAX, providing scalability and quality of service for multimedia services during handover is a main challenge because of high latency and packet loss.

Such details provide a deeper understanding and appreciation for G Wireless Network Handover And Scheduling.
6G wireless networks have a higher capacity and much lower latency than 5G networks, and can operate at higher frequencies than 5G. 6G is predicted to supply hastens to 1,000 times faster than anything 6G can provide by leveraging the terahertz (THz) wave spectrum.

Moving forward, it's essential to keep these visual contexts in mind when discussing G Wireless Network Handover And Scheduling.
Proposing handover-aware scheduling supporting soft handover in small-scale VLC networks while maximizing the efficiency of resource utilization; Extending the proposed technique to the case of multiple clusters architecture in large-scale VLC networks

In other words, the objective of the handover scheduling algorithm can be summarized as follows: for each UE, the S-gNB predicts its signal strength concerning itself and other satellites. Then the algorithm identifies a handover timing according to the handover strategy.
A novel predictive scheduling handover on mobile IPv6.