Ad Hoc Mobile Wireless Networks: Principles, Protocols, and Applications, Second Edition

Introduction Fundamentals of Wireless Networks Bluetooth IrDA 3HomeRF IEE 802.11 (WiFi) IEE 802.16 (WiMAX) Hotspots Mesh Networking Wireless Internet IP LimitationsMobile Internet Protocol (IP) Discovering the Care-of Address Registering the Care-of AddressAuthentication Automatic Home Agent Discovery Tunneling to the Care-of Address Issues in Mobile IP What Are Ad Hoc Networks? Difference between Cellular and Ad Hoc Wireless NetworksApplications of Ad Hoc Wireless Networks Technical and Research Challenges Issues in Ad Hoc Wireless Networks MAC Layer Protocols for Ad Hoc Wireless Networks Important Issues and Need for Medium Access Control (MAC) Protocols Need for Special MAC Protocols Classification of MAC Protocols Contention-Based MAC Protocols Contention-Based MAC Protocols with Reservation Mechanisms MAC Protocols Using Directional Antennas Multiple-Channel MAC Protocols Power-Aware or Energy-Efficient MAC Protocols Routing Protocols for Ad Hoc Wireless Networks Design Issues of Routing Protocols for Ad Hoc Networks Routing Architecture Unidirectional Links Support Usage of Superhosts Quality of Service (QoS) Routing Multicast Support Classification of Routing Protocols Proactive, Reactive, and Hybrid Routing Structuring and Delegating the Routing Task Exploiting Network Metrics for Routing Evaluating Topology, Destination, and Location for Routing Proactive Routing Protocols Wireless Routing Protocol (WRP) Destination-Sequence Distance Vector (DSDV) Fisheye State Routing (FSR) Ad Hoc On-Demand Distance Vector (AODV) Dynamic Source Routing (DSR) Protocol Temporally Ordered Routing Algorithm (TORA) Cluster-Based Routing Protocol (CBRP) Location-Aided Routing (LAR) Ant-Colony-Based Routing Algorithm (ARA) Hybrid Routing Protocols Zone Routing Protocol (ZRP) Zone-Based Hierarchical Link State (ZHLS) Distributed Dynamic Routing (DDR) Protocol Multicast Routing Protocols for Mobile Ad Hoc Networks Issues in Design of Multicast Routing Protocols Classification of Multicast Routing Protocols Tree-Based Multicast Routing Protocols Mesh-Based Multicast Routing Protocols Source-Based Multicast Routing Protocol QoS Routing Multicast Routing in QoS Energy-Efficient Multicast Routing Protocols Metrics for Energy-Efficient Multicast EEMRP: Energy-Efficient Multicast Routing Protocol Location-Based Multicast Routing Protocols Preliminaries Transport Protocols for Ad Hoc Networks TCP\'s Challenges and Design Issues in Ad Hoc Networks Challenges Design Goals TCP Performance over MANETs TCP Performance Other Problems Ad Hoc Transport Protocols Split Approaches End-to-End Approach Quality of Service in Mobile Ad Hoc Networks Challenges Hard-State versus Soft-State Resource Reservation Stateful versus Stateless Approach Hard QoS versus Soft QoS Approach Classification of QoS Solutions MAC Layer Solutions Network Layer Solutions QoS-Enabled Ad Hoc On-Demand Distance Vector Routing Protocol QoS Extensions to AODV Protocol Advantages and Disadvantages QoS Frameworks for Ad Hoc Wireless Networks QoS Models INSIGNIA Operation of INSIGNIA Framework Advantages and Disadvantages INORA Coarse Feedback Scheme Class-Based Fine Feedback Scheme AdvantagesEnergy Management Systems in Ad Hoc Wireless Networks Why Energy Management Is Needed in Ad Hoc Networks Classification of Energy Management Schemes Overview of Battery Technologies Principles of Battery Discharge Impact of Discharge Characteristics on Battery Capacity Battery Modeling Battery-Driven System Design Smart Battery System Energy-Efficient Routing Protocol Proposed Energy-Efficient Medium Access Control Protocol Transmission Power-Management Schemes Power Management of Ad Hoc Networks Basic Idea of the Power Cost Calculate Balance (PCCB) Routing Protocol Analysis of the PCCB Routing Protocol MAC Protocol Power Saving Timing Synchronization Function Power-Saving Function Power-Saving Potential Transmission Power Control Adapting Transmission Power to the Channel State MAC Techniques Logical Link Control AODV Protocol Route Discovery Route Maintenance Local Energy-Aware Routing Based on AODV (LEAR-AODV) Route Discovery Route Maintenance Power-Aware Routing Based on AODV (PAR-AODV) Route Discovery Route Maintenance Lifetime Prediction Routing Based on AODV (LPR-AODV) Route Discovery Route MaintenanceMobility Models for Multihop Wireless Networks Mobility Models Random Walk Mobility Model Random Waypoint The Random Direction Mobility Model A Boundless Simulation Area Gauss-Markov A Probabilistic Version of Random Walk City Section Mobility Model Limitations of the Random Waypoint Model and Other Random Models Mobility Models with Temporal Dependency Mobility Models with Spatial Dependency Mobility Models with Geographic Restriction Cross-Layer Design Issues for Ad Hoc Wireless Networks A Definition of Cross-Layer Design Cross-Layer Design Principle General Motivations for Cross-Layer Design Proposals Involving Cross-Layer Design Creation of New Communication Interfaces Merging of Adjacent Layers Proposals for Implementing Cross-Layer Interactions Direct Communication between Layers A Shared Database across Layers Completely New Abstractions Cross-Layer Design: Is It Worth Applying It? The von Neumann Architecture Source-Channel Separation and Digital System Architecture The OSI Architecture for Networking Pitfalls of the Cross-Layer Design Approach Cost of Development Performance versus Longevity Interaction and Unintended Consequences Stability Performance Objectives Maximizing Total Capacity Max-Min Fairness Utility Fairness Cross-Layer ProtocolsApplications and Recent Developments in Ad Hoc Networks Typical Applications PAN Applications and Opportunities Academic Environment Applications Defense Applications Industrial Environment Applications Healthcare Applications Search and Rescue Applications Vehicular Ad Hoc Networks Challenges Security Highlights of the Most Recent Developments in the Field Sensors Wireless Ad Hoc Sensor Networks Index