CU4202 Advanced Wireless Networks Syllabus:

CU4202 Advanced Wireless Networks Syllabus – Anna University PG Syllabus Regulation 2021

COURSE OBJECTIVES:

The students should be made to:
 study about advanced wireless network, LTE, 4G and Evolutions from LTE to LTE.
 study about wireless IP architecture, Packet Data Protocol and LTE network architecture
 study about adaptive link layer, hybrid ARQ and graphs routing protocol.
 study about mobility management, cellular network, and micro cellular networks

UNIT I INTRODUCTION

Introduction to 1G/2G/3G/4G Terminology. Evolution of Public Mobile Services -Motivation for IP Based Wireless Networks -Requirements and Targets for Long Term Evolution (LTE) – Technologies for LTE- 4G Advanced Features and Roadmap Evolutions from LTE to LTE-A – Wireless Standards. Network Model-Network Connectivity-Wireless Network Design with Small World Properties

UNIT II WIRELESS IP NETWORK ARCHITECTURES

3GPP Packet Data Networks – Network Architecture – Packet Data Protocol (PDP) Context – Configuring PDP Addresses on Mobile Stations – Accessing IP Networks through PS Domain – LTE network Architecture – Roaming Architecture- Protocol Architecture- Bearer Establishment Procedure -Inter-Working with other RATs.

UNIT III ADAPTIVE LINK AND NETWORK LAYER

Link Layer Capacity of Adaptive Air Interfaces-Adaptive Transmission in Ad Hoc Networks Adaptive Hybrid ARQ Schemes for Wireless Links-Stochastic Learning Link Layer Protocol Infrared Link Access Protocol-Graphs and Routing Protocols-Graph Theory-Routing with Topology Aggregation-Network and Aggregation Models

UNIT IV MOBILITY MANAGEMENT

Cellular Networks-Cellular Systems with Prioritized Handoff-Cell Residing Time Distribution Mobility Prediction in Pico- and Micro-Cellular Networks

UNIT V QUALITY OF SERVICE

QoS Challenges in Wireless IP Networks – QoS in 3GPP – QoS Architecture, Management and Classes -QoS Attributes – Management of End-to-End IP QoS – EPS Bearers and QoS in LTE networks

COURSE OUTCOMES:

Upon the completion of course, students will be able to
CO1: get an exposure to the latest 4G networks and LTE
CO2: Understand about the wireless IP architecture and LTE network architecture.
CO3: know the adaptive link layer and network layer graphs and protocol.
CO4: Understand the mobility management and cellular network.
CO5: Understand the wireless sensor network architecture and its concept.

TOTAL:45 PERIODS

REFERENCES

1. Ayman ElNashar, Mohamed El-saidny, Mahmoud Sherif, “Design, Deployment and Performance of 4G-LTE Networks: A Practical Approach”, John Wiley & Sons, 2014.
2. Crosspoint Boulevard, “Wireless and Mobile All-IP Networks”, Wiley Publication, 2005.
3. Jyh-Cheng Chen and Tao Zhang, “IP-Based Next-Generation Wireless Networks Systems, Architectures, and Protocols”, John Wiley & Sons, Inc. Publication,2006.
4. Minoru Etoh, “Next Generation Mobile Systems 3G and Beyond,” Wiley Publications,2005.
5. Savo Glisic,” Advanced Wireless Networks-Technology and Business Models”, Third Edition, John Wiley & Sons, Ltd, 2016
6. Savo Glisic,”Advanced Wireless Networks-4G Technologies”, John Wiley & Sons, Ltd,2006.
7. Stefania Sesia, IssamToufik and Matthew Baker, “LTE – The UMTS Long Term Evolution From Theory to Practice”, John Wiley & Sons, Inc. Publication, Second Edition, 2011.