Overview and Goals Wireless communication technologies are undergoing rapid advancements. The last few years have experienced a steep growth in research in the area of wireless sensor networks (WSNs). In WSNs, communication takes place with the help of spatially distributedautonomoussensornodesequippedtosensespeci?cinformation. WSNs, especially the ones that have gained much popularity in the recent years, are, ty- cally, ad hoc in nature and they inherit many characteristics/features of wireless ad hoc networks such as the ability for infrastructure-less setup, minimal or no reliance on network planning, and the ability of the nodes to self-organize and self-con?gure without the involvement of a centralized network manager, router, access point, or a switch. These features help to set up WSNs fast in situations where there is no existing network setup or in times when setting up a ?xed infrastructure network is considered infeasible, for example, in times of emergency or during relief - erations. WSNs ?nd a variety of applications in both the military and the civilian population worldwide such as in cases of enemy intrusion in the battle?eld, object tracking, habitat monitoring, patient monitoring, ?re detection, and so on. Even though sensor networks have emerged to be attractive and they hold great promises for our future, there are several challenges that need to be addressed. Some of the well-known challenges are attributed to issues relating to coverage and deployment, scalability, quality-of-service, size, computational power, energy ef?ciency, and security.
Wireless communication technologies continue to undergo rapid advancement. In recent years, there has been a steep growth in research in the area of wireless sensor networks (WSNs).
In WSNs, communication takes place with the help of spatially distributed, autonomous sensor nodes equipped to sense specific information. WSNs can be found in a variety of both military and civilian applications worldwide. Examples include detecting enemy intrusion on the battlefield, object tracking, habitat monitoring, patient monitoring and fire detection. Sensor networks are emerging as an attractive technology with great promise for the future. However, challenges remain to be addressed in issues relating to coverage and deployment, scalability, quality-of-service, size, computational power, energy efficiency and security.
This highly useful Guide to Wireless Sensor Networks presents a comprehensive account of the fundamental concepts, new ideas and results in the field of WSNs. Offering a wide coverage of subjects, from core issues to specialized topics, this reader-friendly book provides a valuable reference for academics and practitioners alike. With its helpful teaching tools, it is also an ideal textbook for graduate students wishing to learn more about the topic.
Features:
Provides an accessible, comprehensive overview of the state-of-the-art technology of wireless sensor networks
Offers a set of questions at the end of each chapter to help readers assess their understanding of the various concepts
Includes reader-friendly discussions for practitioners, directions for future research, helpful lists of terms and definitions
Designed, in structure and content, to aid the learning process with the intention of making the book useful at all learning levels
Presents insight into the practical significance of these topics in real-world scenarios
Supplies supportive presentation PowerPoint slides and solutions to aid lecturers at www.springer.com/978-1-84882-217-7
Prof. Sudip Misra is a renowned expert in the field of computer networks and is currently working for the School of Information Technology at the Indian Institute of Technology Kharagpur. With contributions by some of the most prominent researchers in the field today, this book will be an invaluable source of reference for researchers and practitioners in the field of computer networking. Its pedagogical aids further extend its utility in academia.
Key Topics:
Energy Efficiency
Routing
Transport Control
Fault-tolerance
Quality of Service
Scheduling
Security
