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Network Routing : Fundamentals, Applications, and Emerging Technologies.

Ebook Central College Complete Available online

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Format:
Book
Author/Creator:
Misra, Sudip.
Contributor:
Goswami, Sumit.
Language:
English
Subjects (All):
Routing (Computer network management).
Physical Description:
1 online resource (451 pages)
Place of Publication:
Hoboken : John Wiley & Sons, Incorporated, 2017.
Contents:
Intro
Title Page
Copyright Page
Contents
About the Authors
Foreword
Preface
About the Companion Website
Part I Fundamental Concepts
Chapter 1 Introduction to Network Routing
1.1 Introduction to Networks
1.2 Network Architecture and Standards
1.3 Glimpse at the Network Layer
1.4 Addressing in TCP/IP Networks
1.5 Overview of Routing
1.6 Delivery, Forwarding, Routing, and Switching
1.7 Routing Taxonomy
1.8 Host Mobility and Routing
References
Abbreviations/Terminologies
Questions
Exercises
Chapter 2 Basic Routing Algorithms
2.1 Introduction to Routing Algorithms
2.2 Routing Strategies
2.2.1 Non-Adaptive Algorithms
2.2.2 Adaptive Algorithms
2.2.3 Flooding
2.3 Static Shortest Path Routing Algorithms
2.4 Dynamic Shortest Path Routing Algorithms
2.5 Stochastic Routing Algorithms
Chapter 3 Fundamental Routing Protocols
3.1 Routing Protocols
3.2 Distance Vector Routing
3.2.1 Working of the Protocol
3.2.2 Convergence of Distance Vector Table
3.2.3 Issues in Distance Vector Routing
3.2.4 Improvements in Distance Vector Routing
3.2.5 Advantages and Disadvantages
3.3 Link State Routing
3.3.1 Working of the Protocol
3.3.2 Routing Tables
3.4 Path Vector Routing
3.4.1 Working of the Protocol
3.4.2 Advantages and Disadvantages
3.5 Unicast, Multicast, and Broadcast Routing
Part II Routing with Quality-of-Service and Traffic Engineering
Chapter 4 Quality-of-Service Routing
4.1 Introduction
4.2 QoS Measures
4.3 Differentiated and Integrated Services
4.4 QoS Routing Algorithms
4.5 QoS Unicast Routing Protocols
4.6 QoS Multicast Routing Protocols.
4.7 QoS Best0-Effort Routing
Chapter 5 Routing and MPLS Traffic Engineering
5.1 MPLS Fundamentals
5.2 Traffic Engineering Routing Algorithms
5.3 Minimum Interference Routing Algorithm
5.3.1 The Algorithm
5.3.2 Limitations of MIRA
5.4 Profile-Based Routing Algorithm
5.5 Dynamic Online Routing Algorithm
5.6 Wang et al.'s Algorithm
5.7 Random Races Algorithm
Part III Routing on the Internet
Chapter 6 Interior Gateway Protocols
6.1 Introduction
6.2 Distance Vector Protocols
6.2.1 Routing Information Protocol
6.2.2 Interior Gateway Routing Protocol
6.3 Link State Protocols
6.3.1 Open Shortest Path First Protocol
6.3.2 Intermediate System to Intermediate System Protocol
Chapter 7 Exterior Gateway Protocol
7.1 Introduction
7.1.1 Hosts vs Gateways
7.1.2 Gateway-to-Gateway Protocol
7.1.3 Autonomous System
7.1.4 Characteristics of EGP
7.2 Exterior Gateway Protocol
7.2.1 Evolution of EGP Standards
7.2.2 EGP Terminology and Topology
7.2.3 EGP Operation Model
7.3 Border Gateway Protocol
7.3.1 Router Connectivity and Terminology
7.3.2 Routing Information Base
7.3.3 BGP Operation
7.3.4 Decision Process
7.3.5 Route Selection Process
Part IV Other Routing Contexts
Chapter 8 Routing in ATM Networks
8.1 Introduction
8.1.1 ATM Frames
8.1.2 ATM Connection
8.1.3 ATM Architecture
8.1.4 Service Categories
8.2 PNNI Routing
8.2.1 PNNI Interface
8.2.2 PNNI Hierarchy
8.2.3 Building the Network Topology
8.2.4 Peer Group Leader
8.2.5 Advertizing Topology.
8.2.6 Setting up Connection
Chapter 9 Routing in Cellular Wireless Networks
9.1 Introduction
9.2 Basics of Cellular Wireless Networks
9.3 Resource Allocation
9.4 Routing in GSM Networks
9.4.1 Architecture
9.4.2 Call Routing
9.5 Challenges in Mobile Computing
Chapter 10 Routing in Wireless Ad Hoc Networks
10.1 Introduction
10.1.1 Basics of Wireless Ad Hoc Networks
10.1.2 Issues with Existing Protocols
10.2 Table-Driven (Proactive) Routing Protocols
10.3 On-Demand (Reactive) Routing Protocols
10.4 Hybrid Routing Protocols
10.5 Hierarchical Routing Protocols
10.6 Geographic Routing Protocols
10.7 Power-Aware Routing Protocols
Chapter 11 Routing in Wireless Sensor Networks
11.1 Basics of Wireless Sensor Networks
11.1.1 Hardware Architecture of Sensor Node
11.1.2 Network Topology
11.1.3 Design Factors
11.1.4 Classification of Routing Protocol
11.2 Routing Challenges in Wireless Sensor Networks
11.2.1 Self-Healing Networks
11.2.2 Security Threats
11.3 Flat Routing Protocols
11.4 Hierarchical Routing Protocols
11.5 Location-Based Routing Protocols
11.6 Multipath Routing Protocols
11.7 Query-Based Routing Protocols
11.8 Negotiation-Based Routing Protocols
11.9 QoS Routing Protocols
11.9.1 Challenges
11.9.2 Approach to QoS Routing
11.9.3 Protocols
Chapter 12 Routing in 6LoWPAN
12.1 Introduction
12.1.1 IP for Smart Objects
12.1.2 6LoWPAN
12.1.3 ZigBee
12.1.4 ZigBee vs 6LoWPAN
12.2 6LoWPAN Fundamentals
12.2.1 Architecture.
12.2.2 Header Format and Compression
12.2.3 Network Topology
12.2.4 Neighbor Discovery
12.2.5 Routing
12.3 Interoperability of 6LoWPAN
12.4 Applications
12.5 Security Considerations and Research Areas
Part V Advanced Concepts
Chapter 13 Security in Routing
13.1 Introduction
13.1.1 Network Sniffer
13.1.2 Denial of Service Attack
13.1.3 Social Engineering
13.1.4 Packet Filtering
13.2 Attack Surface
13.2.1 Types of Attack Surface
13.2.2 Attack Surface and System Resources
13.2.3 Attack Surface Metric
13.2.4 Reduction in Attack Surface
13.3 Networked Battlefield
13.4 Mobile Agents
13.4.1 Architecture and Framework
13.4.2 Life Cycle
13.4.3 Challenges
13.5 Cognitive Security
13.5.1 Solution Concept
13.5.2 Cognitive Capabilities
13.5.3 General Capabilities
Chapter 14 Reliability and Fault-Tolerant and Delay-Tolerant Routing
14.1 Fundamentals of Network Reliability
14.1.1 Importance of Reliability Calculation
14.1.2 Methods to Calculate the Reliability of a Network
14.2 Fault Tolerance
14.2.1 Fault-Tolerant Network
14.2.2 Autonomic Network
14.3 Network Management for Fault Detection
14.3.1 Traditional Network Management
14.3.2 Mobile Agent
14.3.3 Policy-Based Network Management
14.4 Wireless Tactical Networks
14.5 Routing in Delay-Tolerant Networks
14.5.1 Applications
14.5.2 Routing Protocols
Index
EULA.
Notes:
Description based on publisher supplied metadata and other sources.
Other Format:
Print version: Misra, Sudip Network Routing
ISBN:
9781119029380
OCLC:
974802090

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