Team
AYUSH TANDEL, DINESH KHARRA
Categories
Wireless
Overview
This project presents a comparative analysis of 4G X2 handover and 5G Conditional Handover (CHO), focusing on their performance, reliability, and responsiveness in real-world mobility scenarios. Handover is a critical process in mobile networks that ensures uninterrupted connectivity as users move between cells. Using XCAL, a mobile network testing tool, this project captures and evaluates key performance indicators such as handover latency, packet loss, and signal strength under varying speed conditions, including highway and train environments. The study highlights key architectural and procedural differences between 4G and 5G handovers, demonstrating how 5G CHO offers faster, more reliable transitions, especially in high-speed contexts. By analyzing drive-test data, the project showcases how 5G's advanced mobility management contributes to seamless connectivity and improved user experience. The findings offer valuable insights for telecom engineers and network planners working to optimize next-generation wireless networks.
Exploring 4G vs 5G Handover Performance | Real-World Testing with XCAL
Welcome to our technical deep dive into 4G vs. 5G handover performance! In this project, we explore the fundamental differences between 4G X2 handovers and 5G Conditional Handovers (CHO) using real-world data collected through XCAL, a professional mobile network testing tool.
