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Table of Contents
Intro; Preface; Organization; Contents; IoT for Emergency Scenarios and Disaster Management; Resilient Information Management for Information Sharing in Disaster-Affected Areas Lacking Internet Access; Abstract; 1 Introduction; 2 System Overview; 2.1 Medical Information Management; 2.2 Damaged Area and Map Information Management; 2.3 Supply/Demand Information Management; 2.4 Chat Function; 3 Implementation; 3.1 Disaster Area Wireless Network; 3.2 Map Information Server; 3.3 RIM Client Application; 4 Additional Functions; 4.1 RIM Extender; 4.2 Utilization of Free WiFi Spots
4.3 Smartphone Finder5 Current Status and Remarks; 5.1 Collaboration Works with a Local City Office; 5.2 Integration of a Sensor Network System; 6 Conclusions; Acknowledgments; References; Game Theoretic Optimal User Association in Emergency Networks; 1 Introduction; 2 System Model; 3 Formulation of the Optimization Problem; 4 A Distributed Approach to Optimal User Association; 5 Numerical Evaluation; 6 Related Work; 7 Conclusions; References; A Validation Method for AdHoc Network Simulation Including MANETs, VANETs and Emergency Scenarios; 1 Introduction; 2 Related Work; 3 Network Model
4 Methodology for Validation4.1 Requirements for Validation; 4.2 Composition of the R Matrix; 4.3 Composition of the Vector; 4.4 Finding; 4.5 Finding the Delays Wi at Each Node/Cluster; 4.6 Running the Simulation Model; 5 Case Study; 5.1 Case 1
MANET; 5.2 Case 2
VANET; 5.3 Case 3
Disaster Recovery (Worst-Case Scenario); 6 Summary, Remarks and Discussion; 7 Conclusion; References; Tracking of Rescue Workers in Harsh Indoor and Outdoor Environments; 1 Introduction; 2 Architecture; 2.1 Distributed System Architecture; 2.2 Portable AIOSAT Module Architecture; 3 RF-Ranging Principle
3.1 Symmetrical Double-Sided Two-Way Ranging3.2 Performances; 3.3 Medium Access Control Technique; 4 Experimental Results of the RF-Ranging System; 5 Communication System; 6 Conclusion; References; Topology Discovery Delay Evaluation in Star Topology Network with Switched-Beam Antenna Sink; 1 Introduction; 2 Related Work; 3 System Description; 3.1 Directional Antenna Model; 3.2 The System Model and the Network Topology; 3.3 WAYE: The Proposed Neighbor Discovery Protocol; 3.4 The Description of the WAYE Algorithm; 3.5 Estimation of the Number of Sink Neighbors; 3.6 Time Slots Adjustment
3.7 Time Slots Adjustment4 Simulations Environment and Performance Evaluation; 4.1 Sink Neighbor Nodes Discovery Delay; 5 Conclusion and Perspectives; References; Scheduling and Synchronization in WSN; Convergecast in a TSCH Network Under a Physical Interference Model; 1 Introduction; 2 TSCH; 3 Related Work; 4 System Model and Notation; 5 Basic Procedure: Dilution; 6 Building a Convergecast Tree; 6.1 Overview; 6.2 Assigning Ranks; 6.3 Local Trees; 6.4 Global Tree; 6.5 Global Schedule; 7 Runtime Complexity; 8 Performance Evaluation; 9 Conclusion; References
4.3 Smartphone Finder5 Current Status and Remarks; 5.1 Collaboration Works with a Local City Office; 5.2 Integration of a Sensor Network System; 6 Conclusions; Acknowledgments; References; Game Theoretic Optimal User Association in Emergency Networks; 1 Introduction; 2 System Model; 3 Formulation of the Optimization Problem; 4 A Distributed Approach to Optimal User Association; 5 Numerical Evaluation; 6 Related Work; 7 Conclusions; References; A Validation Method for AdHoc Network Simulation Including MANETs, VANETs and Emergency Scenarios; 1 Introduction; 2 Related Work; 3 Network Model
4 Methodology for Validation4.1 Requirements for Validation; 4.2 Composition of the R Matrix; 4.3 Composition of the Vector; 4.4 Finding; 4.5 Finding the Delays Wi at Each Node/Cluster; 4.6 Running the Simulation Model; 5 Case Study; 5.1 Case 1
MANET; 5.2 Case 2
VANET; 5.3 Case 3
Disaster Recovery (Worst-Case Scenario); 6 Summary, Remarks and Discussion; 7 Conclusion; References; Tracking of Rescue Workers in Harsh Indoor and Outdoor Environments; 1 Introduction; 2 Architecture; 2.1 Distributed System Architecture; 2.2 Portable AIOSAT Module Architecture; 3 RF-Ranging Principle
3.1 Symmetrical Double-Sided Two-Way Ranging3.2 Performances; 3.3 Medium Access Control Technique; 4 Experimental Results of the RF-Ranging System; 5 Communication System; 6 Conclusion; References; Topology Discovery Delay Evaluation in Star Topology Network with Switched-Beam Antenna Sink; 1 Introduction; 2 Related Work; 3 System Description; 3.1 Directional Antenna Model; 3.2 The System Model and the Network Topology; 3.3 WAYE: The Proposed Neighbor Discovery Protocol; 3.4 The Description of the WAYE Algorithm; 3.5 Estimation of the Number of Sink Neighbors; 3.6 Time Slots Adjustment
3.7 Time Slots Adjustment4 Simulations Environment and Performance Evaluation; 4.1 Sink Neighbor Nodes Discovery Delay; 5 Conclusion and Perspectives; References; Scheduling and Synchronization in WSN; Convergecast in a TSCH Network Under a Physical Interference Model; 1 Introduction; 2 TSCH; 3 Related Work; 4 System Model and Notation; 5 Basic Procedure: Dilution; 6 Building a Convergecast Tree; 6.1 Overview; 6.2 Assigning Ranks; 6.3 Local Trees; 6.4 Global Tree; 6.5 Global Schedule; 7 Runtime Complexity; 8 Performance Evaluation; 9 Conclusion; References