Book contents
- Frontmatter
- Contents
- Preface
- 1 INTRODUCTION
- 2 SIGNAL MODELS FOR TIME SYNCHRONIZATION
- 3 TIME SYNCHRONIZATION PROTOCOLS
- 4 FUNDAMENTAL APPROACHES TO TIME SYNCHRONIZATION
- 5 MINIMUM VARIANCE UNBIASED ESTIMATION (MVUE) OF CLOCK OFFSET
- 6 CLOCK OFFSET AND SKEW ESTIMATION
- 7 COMPUTATIONALLY SIMPLIFIED SCHEMES FOR ESTIMATION OF CLOCK OFFSET AND SKEW
- 8 PAIRWISE BROADCAST SYNCHRONIZATION (PBS)
- 9 ENERGY-EFFICIENT ESTIMATION OF CLOCK OFFSET FOR INACTIVE NODES
- 10 SOME IMPROVED AND GENERALIZED ESTIMATION SCHEMES FOR CLOCK SYNCHRONIZATION OF INACTIVE NODES
- 11 ADAPTIVE MULTI-HOP TIME SYNCHRONIZATION (AMTS)
- 12 CLOCK DRIFT ESTIMATION FOR ACHIEVING LONG-TERM SYNCHRONIZATION
- 13 JOINT SYNCHRONIZATION OF CLOCK OFFSET AND SKEW IN A RECEIVER–RECEIVER PROTOCOL
- 14 ROBUST ESTIMATION OF CLOCK OFFSET
- 15 CONCLUSIONS AND FUTURE DIRECTIONS
- Acronyms
- References
- Index
Preface
Published online by Cambridge University Press: 05 August 2012
- Frontmatter
- Contents
- Preface
- 1 INTRODUCTION
- 2 SIGNAL MODELS FOR TIME SYNCHRONIZATION
- 3 TIME SYNCHRONIZATION PROTOCOLS
- 4 FUNDAMENTAL APPROACHES TO TIME SYNCHRONIZATION
- 5 MINIMUM VARIANCE UNBIASED ESTIMATION (MVUE) OF CLOCK OFFSET
- 6 CLOCK OFFSET AND SKEW ESTIMATION
- 7 COMPUTATIONALLY SIMPLIFIED SCHEMES FOR ESTIMATION OF CLOCK OFFSET AND SKEW
- 8 PAIRWISE BROADCAST SYNCHRONIZATION (PBS)
- 9 ENERGY-EFFICIENT ESTIMATION OF CLOCK OFFSET FOR INACTIVE NODES
- 10 SOME IMPROVED AND GENERALIZED ESTIMATION SCHEMES FOR CLOCK SYNCHRONIZATION OF INACTIVE NODES
- 11 ADAPTIVE MULTI-HOP TIME SYNCHRONIZATION (AMTS)
- 12 CLOCK DRIFT ESTIMATION FOR ACHIEVING LONG-TERM SYNCHRONIZATION
- 13 JOINT SYNCHRONIZATION OF CLOCK OFFSET AND SKEW IN A RECEIVER–RECEIVER PROTOCOL
- 14 ROBUST ESTIMATION OF CLOCK OFFSET
- 15 CONCLUSIONS AND FUTURE DIRECTIONS
- Acronyms
- References
- Index
Summary
The clock or time synchronization problem in wireless sensor networks (WSNs) requires a procedure for providing a common notion of time across the nodes of WSNs. In general, clock synchronization is viewed as a critical factor in maintaining the good functioning of WSNs due mainly to their decentralized organization and timing uncertainties caused by the imperfections in hardware oscillators and message delays at the physical and medium access control (MAC) layers. In addition, synchronization of the nodes of wireless sensor networks is crucial for implementing fundamental operations such as power management, transmission scheduling, data fusion, localization and tracking, and security protocols to name only a few applications.
The aim of this book is to provide an introduction to the clock synchronization problem of WSNs from a statistical signal processing viewpoint. Therefore, most of the topics presented in this book deal with building efficient clock offset estimation algorithms and performance benchmarks for general synchronization approaches that rely on sender–receiver and receiver–receiver timing packet exchange mechanisms. A summary of the key features of the most representative protocols proposed for clock synchronization of WSNs is also presented, together with some interesting open research problems.
Synchronization of WSNs is currently a very active research field with a large number of results and very diverse contributions coming from an equally diverse body of researchers: computer scientists, electrical engineers, mathematicians, statisticians, etc. Despite the deployed efforts, the general problem of building efficient global synchronization protocols for large-scale wireless sensor networks is still open and the proposed results are still introduced in a quite ad-hoc manner, lacking comprehensive design and optimization studies to assess and improve their performance in a systematic fashion.
- Type
- Chapter
- Information
- Synchronization in Wireless Sensor NetworksParameter Estimation, Performance Benchmarks, and Protocols, pp. xi - xiiPublisher: Cambridge University PressPrint publication year: 2009