For all the interest that wireless sensor networks have created over the past decade, there are few examples to show that they are truly delivering on this promise and anticipation. What is missing? Deviating from the usual focus on routing and energy efficiency, Building Sensor Networks: From Design to Applications attempts to stitch together the path from conceptual development of applications, on one end, to actual complete applications at the other. With this change in perspective, the book examines important facets of wireless sensor networks (WSNs) that are not often discussed in the literature.
From Design Practices to the Networking Protocols that Glue Applications Together
Organized into three sections, the book presents insights from international experts representing both industry and academia. The first section, on design practices, explores alternative ways to approach the tasks of developing a suitable WSN solution to an application and assisting that development in a manner that is not necessarily tied to a particular application. The second section, on networking protocols, illustrates the impact of the intermediaries—the "glue" of putting applications together. Chapters look at ways to address traffic, delays in network clustering, and the coexistence of a WSN with other systems on a frequency band. The final section of the book delves into experiences with applications in chemical sensing, defense, global trade and security, and ecosystem monitoring. Although these applications may fail the purist definition of an ideal WSN, they offer valuable lessons for the future development and deployment of WSNs.
Challenge Your Thinking about Designing WSN Applications
Emphasizing the need to build applications, the contributors present examples of what applications of WSNs could look like and identify the constraints. Throughout, the book challenges and illuminates your thinking about how to tame the complexity of designing a WSN application. It is essential reading for anyone interested in future wireless technologies.
Table of Contents
Dynamic Profiling and Optimization Methodologies for Sensor Networks
Ann Gordon-Ross, Arslan Munir, Susan Lysecky, Roman Lysecky, Ashish Shenoy, and Jeff Hiner
Stochastic Inference in Wireless Sensor Networks
Sahar Movaghati and Masoud Ardakani
Implementation of Wireless Sensor Network Systems with PN-WSNA Approaches
Chung-Hsien Kuo and Ting-Shuo Chen
Real-Time Search in the Sensor Internet
Richard Mietz and Kay Romer
Traffic Management in Wireless Sensor Networks
Swastik Brahma, Mainak Chatterjee, and Shamik Sengupta
Decision-Tree Construction for Event Classification in Distributed Wearable Computers
Hassan Ghasemzadeh and Roozbeh Jafari
A Network Structure for Delay-Aware Applications in Wireless Sensor Networks
Chi-Tsun Cheng, Chi K. Tse, and Francis C.M. Lau
Distributed Modulation Classification in the Context of Wireless Sensor Networks
Jefferson L. Xu, Wei Su, and Mengchu Zhou
Challenges in Wireless Chemical Sensor Networks
Saverio De Vito
Low-Power, Extensive Sensor Networks from the Wired Perspective
Alan R. Wilson
Maritime Data Management and Analytics: A Survey of Solutions Based on Automatic Identification System
Baljeet Malhotra, Hoyoung Jeung, Thomas Kister, Stephane Bressan, and Kian-Lee Tan
Above and Below the Ocean Surface: A WSN Framework for Monitoring the Great Barrier Reef
Cesare Alippi and Manuel Roveri
Ioanis Nikolaidis is a professor in the Department of Computing Science and an adjunct professor in the Department of Occupational Therapy at the University of Alberta. His research interests are in computer network protocol modeling and simulation, network protocol performance, and wireless sensor network architectures and applications. He has published 90 papers in refereed journals and conferences, as well as four book chapters, and is the editor of IEEE Network magazine. He has cochaired the CNSR 2011 and ADHOC-NOW 2004 and 2010 conferences and has served as a technical program committee member and reviewer for numerous conferences and journals, as well as for several funding agencies. He is currently a steering committee member for the annual WLN workshop and ADHOC-NOW conference. He is a member of IEEE and a lifetime member of ACM.
Krzysztof (Kris) Iniewski manages R&D at Redlen Technologies, Inc., a start-up company in Vancouver, Canada. He is also a president of CMOS Emerging Technologies Research Inc., an organization of high-tech events covering communications, microsystems, optoelectronics, and sensors. Dr. Iniewski has held numerous faculty and management positions at the University of Toronto, the University of Alberta, Simon Fraser University, and PMC-Sierra, Inc. He has published more than 100 research papers in international journals and conferences. He holds 18 international patents granted in the United States, Canada, France, Germany, and Japan. He is a frequent invited speaker, has consulted for multiple organizations internationally, and has written and edited several books.