Forecasting Global Network Traffic Trends: The Role of Virtual Reality

TL;DR

This paper examines how UDP Ethernet communication impacts network performance in VR systems, analyzing factors like cable length and data rate to optimize real-time data transmission for immersive experiences.

Contribution

It provides empirical analysis of UDP Ethernet performance in VR, highlighting how specific parameters affect communication speed and stability for better VR system design.

Findings

Cable length significantly affects data transmission speed.

Higher data rates improve VR responsiveness.

Optimized packet processing enhances network stability.

Abstract

Virtual Reality (VR) technology demands real-time data transmission to deliver an immersive and interactive user experience. This study investigates the implementation of UDP Ethernet communication in VR systems, focusing on its impact on network performance. Experiments were conducted to analyze how factors such as cable length, data rate, and packet processing rate (PPR) influence system performance. A series of tests were performed, and the results were visualized through detailed graphs. The findings reveal how variations in these parameters affect communication speed and stability, providing insights for optimizing VR system design. By leveraging the high-speed, low-overhead advantages of UDP Ethernet, this study may contribute understanding of network performance in VR applications, offering practical guidance for developers and engineers in creating responsive and efficient VR environments.