Tamosoft throughput test udp loss5/17/2023 In terms of internet protocol traffic, TCP and UDP are widely used protocols and they’re both used based on the set of advantages and challenges that they bring. It supports many features such as: a wide range of wireless models, measured traces, customized MAC and PHY layers, connectivity with LTE base stations, etc. mmWave is an open-source fork of ns-3 that enables packet-level simulations and allows users throughput and latency analysis at different layers. The simulations in this paper are implemented using the mmWave ns-3 module. We test 5G’s performance claims by simulating and analyzing TCP and UDP packets over a 5G network using ns-3 and comparing our results to the same performance metrics observed from 4G network simulations. 5G is the latest generation of mobile networking technology and boasts higher throughput and lower latency than previous technologies such as 4G. In this project, we analyze and discuss the performance of TCP and UDP over 5G networks using the metrics of delay, jitter, throughput, and packet loss. These characteristics will be analyzed to check whether 5G simulated networks are suitable for data transmission. Some advantages of TCP vs UDP are known, such as reliable transmission in TCP and low delay in UDP over 4G and wired networks. Although many performance metrics exist today, we will use delay, jitter, throughput, and packet loss to compare the performance of these two protocols. The ns-3 simulator is highly customizable as it offers a cross-layer design that helps test new 5G protocols. In this paper, we will simulate a 5G network over an ns-3 simulator and study the performance of the User Datagram Protocol (UDP) and Transmission Control Protocol (TCP). Performance Analysis of TCP and UDP over 5G NetworkĥG or the fifth-generation cellular network is the successor to 4G networks that use mmWave technology to achieve high throughputs (around 10 Gbps).
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