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4G LTE Tutorial: Basics, Architecture, Channels, and More
Explore 4G LTE technology: architecture, channels, frequency bands, QoS, and its evolution from 2G/3G. Understand LTE's role in high-speed data and connectivity.
Posts tagged: Network Architecture
Showing 20 posts (Page 1 of 3)
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4G vs 5G: LTE and NR Network Architecture Comparison
Explore the key differences between 4G LTE and 5G NR network architectures, comparing speed, latency, architecture, and use cases to understand 5G's advantages.
5G Interfaces: Uu, NG-1U, and NG-1C Explained
Learn about the Uu, NG-1U, and NG-1C interfaces in 5G networks, their functions within the 5G RAN architecture, and their roles in data and control planes.
5G MEC: Multi-Access Edge Computing Advantages
Explore the advantages of 5G MEC (Multi-Access Edge Computing) architecture and its benefits within 5G NR networks, including reduced latency and enhanced security.
5G Network Reference Point Architecture: NG1 to NG15 Interfaces
Explore the 5G network architecture and its reference points (NG1-NG15), defining the interfaces between functional blocks in a 5G NR network.
5G NR Interview Questions and Answers
Prepare for your 5G NR technical interview with this collection of frequently asked questions and detailed answers covering key concepts and technologies.
5G Tutorial: 5G NR System Basics, Architecture, Frame, Channels, and More
This tutorial covers 5G technology basics, architecture, frame, channels, protocol stack, comparison with 4G, advantages and disadvantages.
5G vs 6G: Key Differences in Wireless Technology
Explore the distinctions between 5G and 6G, covering definitions, working principles, features, and future advancements in wireless technology.
6G Network Architecture and Interfaces Explained
Explore 6G network architecture, including user equipment, access network, core network, edge computing, and non-terrestrial networks. Learn about key interfaces and their functions.
6G Wireless Technology: Questions and Answers
Explore frequently asked questions about 6G wireless technology, covering speed, range, spectral efficiency, architecture, advantages, and key differences from 5G.
AON vs PON: Active vs Passive Optical Networks Explained
Explore the differences between Active Optical Networks (AON) and Passive Optical Networks (PON), covering bandwidth, reliability, and cost.
Asynchronous Transfer Mode (ATM) Tutorial
Learn the basics of Asynchronous Transfer Mode (ATM) in computer networks, covering architecture, cell format, protocol layers, addressing, and services.
Cellular Communication Basics: A Tutorial
Learn the fundamentals of cellular communication, including architecture, coverage expansion, access techniques (FDMA, TDMA, CDMA), handover, and next-generation technologies.
Cellular Network vs. Cell-Free Network: Key Differences
Explore the differences between cellular and cell-free networks, including architecture, interference, signal strength, service quality, and cost.
Client vs. Server: Understanding the Key Differences
Explore the fundamental differences between clients and servers, their roles in the client-server architecture, and various deployment models like distributed and peer-to-peer.
Comprehensive GPRS Tutorial
Explore GPRS, a packet-switched technology for data connections over GSM networks. Learn about its architecture, frame structure, channels, and more.
Dash7 Architecture and Protocol Stack for IoT
Explore the Dash7 protocol, a robust wireless communication standard for low-power IoT applications. Learn about its architecture, protocol stack, and applications in smart cities, industrial automation, and logistics.
DOCSIS Architecture Explained: Network Elements & Functions
Explore the DOCSIS architecture, including cable modems (CM), CMTS, and HFC networks. Learn about DOCSIS versions and their data rates.
eCPRI in 5G NR: Advantages and Disadvantages
Explore the benefits and drawbacks of the eCPRI interface in 5G NR, including reduced bandwidth, simplified troubleshooting, and the need for high-capacity fronthaul.
Femtocell Tutorial: A Comprehensive Guide to Enhanced Indoor Coverage
Explore femtocell technology, its architecture, handover, security, interference management, testing techniques, and key manufacturers. Improve indoor coverage and connectivity with femtocells.
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