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This book is based on a series of conferences on Wireless Communications, Networking and Applications that have been held on December 27-28, 2014 in Shenzhen, China. The meetings themselves were a response to technological developments in the areas of wireless communications, networking and applications and facilitate researchers, engineers and students to share the latest research results and the advanced research methods of the field. The broad variety of disciplines involved in this research and the differences in approaching the basic problems are probably typical of a developing field of interdisciplinary research. However, some main areas of research and development in the emerging areas of wireless communication technology can now be identified. The contributions to this book are mainly selected from the papers of the conference on wireless communications, networking and applications and reflect the main areas of interest: Section 1 - Emerging Topics in Wireless and Mobile Computing and Communications; Section 2 - Internet of Things and Long Term Evolution Engineering; Section 3 - Resource Allocation and Interference Management; Section 4 - Communication Architecture, Algorithms, Modeling and Evaluation; Section 5 - Security, Privacy, and Trust; and Section 6 - Routing, Position Management and Network Topologies.
Section 1_Emerging Topics in Wireless and Mobile Computing and Communications: Chapter 1. Relay Precoding for Multi-user Cooperative Communication.- Chapter 2. A Big Slot Scheduling Algorithm for the Reliable Delivery of Real-Time Data Packets in Wireless Sensor Networks.- Chapter 3. Classification and Comparative Analysis of Resource Management Methods in Ad Hoc Network.- Chapter 4. A Secure Model Based on Hypergraph in Multi-layer and Multi-domain Intelligent Optical Network.- Chapter 5. Creating a Mobile Phone Short Message Platform Applied in the Continuing Nursing Information System.- Chapter 6. Enhancing the Bit Error Rate of Visible Light Communication Systems Using Channel Estimation and Channel Coding.- Chapter 7. An Empirical Examination of Direct and Indirect Network Externalities of the Japanese Handheld Computer Industry – An Empirical Study of the Early Days.- Chapter 8. Multipath Performance Assessments for Future BeiDou BOC Signal.- Chapter 9. Research of Incremental Dimensionality Reduction Based on Tensor Decomposition Algorithm.- Chapter 10. Estimating a Transit Passenger Trip Origin-Destination Matrix Using Simplified Survey Method.- Chapter 11. An LDPC Coded Adaptive Amplify-and-Forward Scheme Based on the EESM Model.- Chapter 12. An Opportunistic Routing Protocol Based on Link Correlation for Wireless Mesh Networks.- Chapter 13. Election of Guard Nodes to Detect Stealthy Attack in MANET.- Chapter 14. GA-LORD: Genetic Algorithm and LTPCL Oriented Routing Protocol in Delay Tolerant Network.- Chapter 15. Integrated Modeling Environment “Virtual Computational Network”.- Chapter 16. Comparative Study of Different Windowing Techniques on Coupling Modes in a Coaxial Bragg Structure.- Chapter 17. Joint Two-Dimensional DOA and Power Estimation Based on DML-ESPRIT Algorithm.- Chapter 18. Comparison between Operational Capability of PDT and Tetra Technologies: A Summary.- Chapter 19. Development and Analysis of Police Digital Trunking Channel Technology of PDT.- Chapter 20. MR-LSH: An Efficient Sparsification Algorithm Based on Parallel Computing.- Chapter 21. Research of Badminton Data Acquisition System Based on Sensors Technology.- Chapter 22. The Direct Wave Purifying Based on WIFI Signal for Passive Radar.- Chapter 23. Application of Data Compression Technique in Congested Networks.- Chapter 24. On-demand Carrier Sense and Hidden Node Interference-Aware Channel Reservation Scheme for Common Traffic in Wireless Mesh Network.- Chapter 25. A Novel Locating Algorithm Based on GPSR Protocol for Mobile Sink Nodes in Wireless Sensor Networks.- Chapter 26. A Hybrid Routing Protocol Based on Load Balancing in Wireless Mesh Network.- Chapter 27. Performance Evaluation of Double-Wavelength Full-Duplex Free Space Laser Communication Based on Modulating Retro-reflector.- Chapter 28. Based on the Wireless Transmission of Pneumatic Seeder Seeding Condition Monitor.- Chapter 29. Energy-Efficient Mobile Agent Communications for Maximizing Lifetime of Wireless Sensor Networks.- Chapter 30. Novel Design and Performance Analysis of Broadband Dual Layer Circular Polarizer Based on Frequency Selective Surface for 60 GHZ Application.- Chapter 31. Research on Embedded Vehicle Diagnosis Technology Based on Wireless Network.- Chapter 32. Internet of Things in Real-Life– A Great Understanding.- Chapter 33. Urban Water Supply Network Monitoring and Management Platform Based on Wireless Sensor Network.- Chapter 34. Comparative Study on the Performance of TFRC and SCTP over AODV in MANET.- Chapter 35. Towards an Efficient Integral Multi-agent Sensor Network Generic Simulation System Design.- Chapter 36. A Conceptual Multi-agent Modeling of Dynamic Scheduling in Wireless Sensor Networks.- Chapter 37. Ad Hoc High Dynamic Routing Protocol Simulation and Research.- Chapter 38. A Stopping Criterion Based on Check-Sum Variations for Decoding Non-binary LDPC Codes.- Chapter 39. On Data Transport Issues in Wireless Self-configuring Networks.- Chapter 40. A Dual-Band Cross-Coupled Band pass Filter with CPW Trapezoid Resonator for WIFI Frequencies.- Chapter 41. A Method of Modulation Recognition Based on Symbol Rate Characteristic.- Section 2_Internet of Things and Long Term Evolution Engineering: Chapter 42. Adaptive Modulation and Coding with Channel Estimation/Equalization for WiMAX over Multipath Faded Channels.- Chapter 43. Design and Implementation of Smart-Home Monitoring System with the Internet of Things Technology.- Chapter 44. Internet of Things Laboratory Test Bed.- Chapter 45. The Research of Reactive Spectrum Handoff Algorithm Based on Spectrum Prediction.- Chapter 46. Feature Analysis and Research on Radar Target Scattering Characteristics of Typical Individual Migratory Bird.- Chapter 47. Research of IoT Application in Manned Spaceflight Launch Site.- Chapter 48. Planar UHF RFID Tag Antenna with Easy Method of Impedance Matching and Large Reading Range.- Chapter 49. Design of a Radio Frequency Identification (RFID) Based Monitoring and Vehicle Management System.- Chapter 50. Research and Implementation of Traffic Sign Recognition System.- Chapter 51. Performance Evaluation of LTE Systems in Multi-Path Channels.- Chapter 52. Evaluate the Performance of Long Term Evolution – LTE Downlink Scheduling Systems.- Chapter 53. Design of a Low-Power Temperature Sensing Tag Based on RFID.- Chapter 54. Distributed PT-Topk Query Algorithm for Uncertain Data in IOT.- Chapter 55. Application of Interference Coordination Technology TD-LTE230 Power Wireless Communication System.- Chapter 56. Research on Terminal Power Control of Power Wireless Communication System Based on Narrow-Band Spectral.- Chapter 57. Electricity Information Collection System Design and Information Security Based on WiMAX over 230 MHz Dedicated Frequency Band.- Chapter 58. Proposal for Spatial Monitoring Activities Using the Raspberry Pi and LF RFID Technology.- Section 3_Resource Allocation and Interference Management: Chapter 59. A Capability-Based Access Control Framework with Delegation Support.- Chapter 60. Performance Analysis and Prototype Experiment for Parallel RoF-MIMO System.- Chapter 61. Social-Based Routing for Vehicular Ad Hoc Networks in Fixed-Route Transportation Scenarios.- Chapter 62. Energy Efficient Sensor Scheduling for Target Coverage in Wireless Sensor Network.- Chapter 63. Distributed Closed-Loop QOSTBCs with PIC Detector under Quasi-Synchronization.- Chapter 64. Novel Slots Synthesis Design for the Harmonic Suppression of Vivaldi Antenna.- Chapter 65. The Research on DS-OFDM in Integrated Radar and Communication.- Chapter 66. An Improved Dynamic Resource Allocation in Multi-users OFDM System.- Chapter 67. The Algorithm for Mining Global Frequent Item sets Based on Cloud Computing.- Chapter 68. The Design and Fabrication of High Efficiency Low Beam Divergence 850nm VCSELs for High Capacity Optical Transmission.- Chapter 69. A Tactic Research of Eliminating the Conflict of Using Electromagnetic Spectrum in the Battlefield Environment.- Chapter 70. Triangular Antenna with Novel Techniques for RCS Reduction Applications.- Chapter 71. On Integrating Natural Computing Based Optimization with Channel Assignment Mining and Decision Making towards Efficient Spectrum Reuse in Cellular Networks Modeled through Multi-agent System Schemes.- Chapter 72. Temperature Characteristic Study of 808nm VCSELs with Reticular Electrode Structure.- Section 4_Communication Architecture,
Dr. Qing-An Zeng received his MS and Ph.D. degrees both in Electrical Engineering from Shizuoka University in Japan. In 1997, he joined NEC Corporation, Japan, where he was engaged in the R&D of 3G systems. In 1999, he joined the University of Cincinnati in Ohio and was a faculty member in the Department of Computer Science. In 2010, Dr. Zeng joined North Carolina A&T State University as a faculty member in the Department of Computer Systems Technology. His research interests include Wireless and Mobile Networks, Handoff and Resource Management, Mobility Management, Heterogeneous Networks, Mobile Ad Hoc and Sensor Networks, Wireless Internet, QoS Issues, Security Issues, UWB, NoC, PLC, Smart Grid Communications, Vehicle Communications, Modeling and Performance Analysis, and Queuing Theory. Dr. Zeng has more than 140 publications including: books, book chapters, refereed journal articles and international conference proceedings papers. He has also served on numerous professional committees. In October 2014, Dr. Zeng published his book entitled “Introduction to Wireless and Mobile Systems, 4th edition” by Cengage Learning. His book has been adopted by a lot of universities in the world and was translated into Chinese and Korean versions. Dr. Zeng is a Senior Member of IEEE.