Resource Management in Advanced Wireless Networks

RESOURCE MANAGEMENT IN ADVANCED WIRELESS NETWORKS Written and edited by a team of experts in the field, this exciting new volume provides a comprehensive exploration of cutting-edge technologies and trends in managing resources in advanced wireless networks. This groundbreaking new volume from Wiley...

Descripción completa

Detalles Bibliográficos
Autor principal:	Suresh, A. (-)
Otros Autores:	Ramkumar, J., Baskar, M., Bashir, Ali Kashif
Formato:	Libro electrónico
Idioma:	Inglés
Publicado:	Newark : John Wiley & Sons, Incorporated 2023.
Edición:	1st ed
Materias:	Radio resource management (Wireless communications)
Ver en Biblioteca Universitat Ramon Llull:	https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009811325306719

Tabla de Contenidos:

Cover
Title Page
Copyright Page
Contents
Preface
Chapter 1 Introduction to Next Generation Networks 5G and Beyond
1.1 Introduction
1.1.1 Benefits of 5G Networks
1.2 5G Evolution
1.2.1 1G-Analog Cellular Networks
1.2.2 2G - Digital Mobile Networks
1.2.3 3G-High-Speed Data Networks
1.2.4 4G Expansion of Mobile Broadband
1.2.5 5G-Design Innovation
1.3 5G - Exclusiveness
1.4 Challenges of Networks
1.5 What Will 5G Accomplish?
1.6 Progressing Societies
1.7 Transforming Industries
1.8 The Invention of 5G
1.8.1 Technologies of 5G
1.8.2 Misinterpretations of 3GPP -Addressed
1.8.3 3GPP'S Real-Time Progress Indicator
1.9 Role of 5G
1.9.1 Impact on an Individual
1.9.2 Impact on Industries
1.10 Is a New Phone Required for 5G?
1.11 Summary
Bibliography
Chapter 2 Architecture and Future Trends on Next Generation Networks
2.1 Introduction
2.2 Topology Characterisitics
2.2.1 Network Structure
2.2.2 Modeling Network Layers
2.2.3 Research Topology Challenges
2.3 Current Network Topologies
2.3.1 Bus Topology
2.3.2 Ring Topology
2.3.3 Star Topology
2.3.4 Mesh Topology
2.4 Trends of Modern Networks
2.4.1 Network Link and Collabration
2.4.2 Disruptive Technologies
2.5 Architecture of Next Generation Networks
2.5.1 Functionality of NGN Network
2.5.2 Transport Control and Management
2.5.3 Service Control Management
2.6 Challenges in Network Structure
2.6.1 Implementing Dynamic Topologies
2.6.2 Management Questions
2.6.3 Consideration of Traffic Control
2.6.4 Cost Management System
2.6.5 Web Service Management
2.7 Network Analysis and Routing Protocols
2.7.1 Destination Sequenced Distance Vector Protocol
2.7.2 Dynamic Source Routing
2.7.3 AdHoc on Demand Distance Vector Routing.
2.8 Evolution of Networks and Services Towards NGN
2.8.1 Significant Stages in Network and Services
2.8.2 Network Convergence and Development
2.8.3 IP Base Network Management System
2.8.4 Service Extension and Network Integration
2.9 Advanced Network and Service Management Technologies
2.9.1 Technology of Artificial Intelligence
2.9.2 Smart Agent Technology
2.10 Conclusion
References
Chapter 3 Evolution of Next Generation Networks and Its Contribution Towards Industry 5.0
3.1 Introduction
3.2 Networks of 4G
3.3 5G and its Vision
3.3.1 Requirements for 5G
3.3.2 Network Architecture
3.3.3 Economic Contributions and Networks Intelligent Automation of 5G
3.3.3.1 Internet of Things (IoT): Artificial Intelligent Plus 5Generation is a Smart IoT
3.3.3.2 Autonomous Vehicles, Smart Cars
3.3.3.3 Manufacturing Sector and Smart Factory
3.3.3.4 Healthcare Industry
3.3.3.5 Smart Grids and Cities
3.4 A Vision and a Need for 6G Communications
3.4.1 Development Projects
3.4.2 System Architecture of 6G
3.4.3 Satellite Network of 6G
3.5 Emerging of 7G
Findings
3.6 Conclusions
References
Chapter 4 Understanding the Salient Features Related To Resource Management in Broadband Wireless Networks
4.1 Introduction
4.1.1 Network Topology Related to Wireless Networks
4.1.2 Challenges in Wireless Broadband Network
4.1.3 Radio Channel
4.1.4 Scarcity in the Spectrum Utilization
4.1.5 Quality of Service (QoS)
4.1.6 OFDM with WiMAX Technology
4.1.7 Advanced Modulation and Coding Techniques in WiMAX
4.1.8 Conclusion
References
Chapter 5 Network Routing and Its Real-Time Practice in Broadband Wireless Networks
5.1 Introduction
5.2 Outline of Broadband Wireless Networking
5.2.1 Type of Broadband Wireless Networks
5.2.1.1 Fixed Networks
5.2.1.2 WiMAX.
5.2.1.3 The Broadband Mobile Wireless Networks
5.2.2 BWN Network Structure
5.2.3 Wireless Broadband Applications
5.2.3.1 Digital Telephone
5.2.3.2 Broadband Data Connections
5.2.3.3 Digital Television
5.2.4 Promising Approaches Beyond BWN
5.3 Routing Mechanisms
5.3.1 Distance Vector (DV)
5.3.2 Link State (LS)
5.4 Security Issues and Mechanisms in BWN
5.4.1 DoS Attack
5.4.2 Distributed Flooding DoS
5.4.3 Rogue and Selfish Backbone Devices
5.4.4 Authorization Flooding on Backbone Devices
5.4.5 Node Deprivation Attack
5.5 Conclusion
References
Chapter 6 Routing Mechanism in Broadband Wireless Network
6.1 Classification of BWN Routing Protocols
6.1.1 Routing
6.1.2 Routing-Protocols
6.1.2.1 Types of Routing Protocols for Broadband Wireless Network
6.2 Routing Mechanism in WiMAX Mesh Network
6.2.1 Routing Protocols - IEEE 802.16 Mesh Network
6.2.2 Architecture of WiMAX Protocol
6.3 Routing Mechanism in Mobile Networks
6.3.1 4G Mobile Network
6.3.2 5G Mobile Network
6.3.3 Convergence Communication Issue
6.3.4 Multi-Hop Dynamic Routing Issue
6.4 Service Specific Routing Protocols
6.4.1 Protocols Based on Topology and Position
6.4.2 Protocols Based on Proactive and Reactive Nature
6.4.3 Protocols Based on Distance Vector and Link State Routing
6.4.4 Protocols Based on Hop-by-Hop Routing and Source Routing
6.4.5 Protocols Based on Flat and Hierarchical Infrastructure
6.4.6 Protocols Based on Single-Path and Multipath
6.5 Novel Approaches and Algorithms on Broadband Routing
6.5.1 Approaches for efficient Performance in Broadband Routing
6.5.2 Algorithms for Broadband Routing
6.6 Conclusion
References
Chapter 7 Interference Problem in 5G with Radio Access Network
7.1 Introduction
7.1.1 Interface Management.
7.1.2 Management of Conflict in Agile RM Framework
7.1.2.1 A Holistic View of Technology
7.1.3 Ratings and Context Information
7.1.4 Dynamic Traffic Steering
7.1.4.1 Reduced-Overhead Interference Mitigation
7.1.5 Reducing Overhead Interference Mitigation
7.1.5.1 RIM and 5G NR
7.1.5.2 Contributions and Differences
7.1.6 High-Level 5NR - RIM Framework
7.1.7 OS RIM-RS
7.1.7.1 OS RIM-RS
7.1.8 Radio-Access Network
7.1.9 Improve RAN Coverage
7.1.9.1 Improving RAN Coverage Can Take Many Forms
7.1.10 Related Work
7.1.11 Conclusion
References
Chapter 8 Interference Techniques Based on Deep Learning in Wireless Networks
8.1 Introduction
8.2 Literature Review
8.3 Suppression Techniques
8.3.1 Deep Learning Based Approach
8.3.2 Adjacent Channel Interference (ACI)
8.3.3 Co-Channel Interference
8.3.4 Self-Interference
8.3.5 Homogeneous Technology Interference
8.3.6 Heterogeneous Technology Interference
8.4 Classification of Interference Suppression Techniques
8.5 A Blind Approach of Interference Cancellation Using Neural Networks
8.6 Interference Estimation
8.6.1 Feature Extraction
8.6.2 Channel Usage Ratio
8.7 Machine Learning Model-Decision Tree
8.8 Lookup Table
8.9 Conclusion
References
Chapter 9 Implementing SDN Process-Based MRMC Wireless Networks
9.1 Multi-Radio Multi Channel Network in Wireless Network
9.1.1 The Concept of QoS inWN
9.2 QoS Challenges in MRMC Based Wireless Networks
9.2.1 Bandwidth Limitation
9.2.2 Removal of Redundancy
9.2.3 Energy and Delay Trade-Off
9.2.4 Buffer Size Limitation
9.3 Opportunistic Routing
9.4 The Need for Software-Defined Network in WSN for Enhancing QoS
9.4.1 QoS Management
9.5 ILP Problem Design
9.5.1 Network Model
9.5.2 Interference Model
9.5.3 VL Request Design.
9.6 Problem Constraints
9.6.1 Genetic Algorithm
9.6.2 Balanced Source Distribution with DL Cost
9.7 Virtual Network Embedding
9.7.1 Specification of Virtual Network Embedding
9.7.2 System Model
9.7.3 Open Flow Enabled Network
9.7.4 Network Model
9.7.5 Interference Model
9.8 Algorithm on Interference Modeling and Channel Selection Process
9.8.1 Interference Aware Routing Algorithm
9.8.2 Channel Assignment Algorithm
9.8.3 The MCM Algorithm
9.9 Performance Evaluation
9.9.1 Network Model
9.9.2 Load Design Algorithm
9.9.3 Simulation Settings
9.9.4 Performance Metrics
9.10 Performance Results
9.10.1 Handling with WL Intervention
9.10.2 Evaluating the Multicast Gain
9.10.3 Clique Utilization Balancing
9.10.4 Analysis of Switch Resource Consumption
9.10.5 Embedding Method Selection: Integer Linear Programming Vs Genetic Algorithm
9.11 Conclusion
References
Chapter 10 Advanced Wireless Mobile Network on Financial Literacy
10.1 Introduction
10.2 Statement of the Problem
10.3 Objectives of the Study
10.4 Hypothesis
10.5 Sampling Design
10.6 Literature Review
10.7 Methodology
10.8 Measurement of Financial Literacy
10.9 Elements of Financial Literacy
10.10 Financial Literacy Among Scheduled Community
10.11 Age Wise Status of Financial Literacy
10.12 Financial Literacy Among Scheduled Communities of Different Age Group - ANOVA
10.12.1 Null Hypothesis
10.13 Financial Literacy and its Relationship with Gender
10.13.1 Null Hypothesis
10.14 Financial Literacy and its Relationship with Marital Status
10.14.1 Null Hypothesis
10.15 Financial Literacy and its Relationship with Religion
10.15.1 Null Hypothesis
10.16 Financial Literacy Among Scheduled Communities of Different Educational Qualification - ANOVA
10.16.1 Null Hypothesis.
10.17 Occupation Wise Status of Financial Literacy.

Resource Management in Advanced Wireless Networks

Ejemplares similares