Topology Control in Wireless Ad Hoc and Sensor Networks (PDF)

About the Author. Preface. Acknowledgments. List of Abbreviations. List of Figures. List of Tables. I: Introduction. 1. Ad Hoc and Sensor Networks. 1.1 The Future ofWireless Communication. 1.2 Challenges. 2. Modeling Ad Hoc Networks. 2.1 The Wireless Channel. 2.2 The Communication Graph. 2.3 Modeling Energy Consumption. 2.4 Mobility Models. 2.5 Asymptotic Notation. 3. Topology Control. 3.1 Motivations for Topology Control. 3.2 A Definition of Topology Control. 3.3 A Taxonomy of Topology Control. 3.4 Topology Control in the Protocol Stack. II: The Critical Transmitting Range. 4. The CTR for Connectivity: Stationary Networks. 4.1 The CTR in Dense Networks. 4.2 The CTR in Sparse Networks. 4.3 The CTR with Different Deployment Region and Node Distribution. 4.4 Irregular Radio Coverage Area. 5. The CTR for Connectivity: Mobile Networks. 5.1 The CTR in RWPMobile Networks. 5.2 The CTR with Bounded, Obstacle-free Mobility. 6. Other Characterizations of the CTR 63 6.1 The CTR for k-connectivity. 6.2 The CTR for Connectivity with Bernoulli Nodes. 6.3 The Critical Coverage Range. III: Topology Optimization Problems. 7. The Range Assignment Problem. 7.1 Problem Definition. 7.2 The RA Problem in One-dimensional Networks. 7.3 The RA Problem in Two- and Three-dimensional Networks. 7.4 The Symmetric Versions of the Problem. 7.5 The Energy Cost of the Optimal Range Assignment. 8. Energy-efficient Communication Topologies. 8.1 Energy-efficient Unicast. 8.2 Energy-efficient Broadcast. IV: Distributed Topology Control. 9. Distributed Topology Control: Design Guidelines. 9.1 Ideal Features of a Topology Control Protocol. 9.2 The Quality of Information. 9.3 Logical and Physical Node Degrees. 10. Location-based Topology Control. 10.1 The R&M Protocol. 10.2 The LMST Protocol. 11. Direction-based Topology Control. 11.1 The CBTC Protocol. 11.2 The DistRNG Protocol. 12. Neighbor-based Topology Control. 12.1 The Number of Neighbors for Connectivity. 12.2 The KNeigh Protocol. 12.3 The XTC

Paolo Santi is Researcher at the Instituto di Informatica e
Telematica del CNR in Pisa, Italy, a position he has held since
2001. He received the 'Laurea' Degree and the PhD in Computer
Science from the University of Pisa in 1994 and 2000. respectively.
During his career, he visited the School of Electrical and Computer
Engineering, Georgia Institute of Technology, in 2001, and the
Department of Computer Science, Carnegie Mellon University, in
2003.

During his PhD Studies, Dr. Santi's research activity focused on
fault-tolerant computing in multiprocessor systems. Starting from
2001, his research interests shifted to wireless ad hoc networking,
with particular focus on the investigation of fundamental network
properties such as connectivity, network lifetime, and mobility
modeling, and on the design of energy-efficient protocols.

Dr. Santi has contributed more than twenty papers in the field
of wireless ad hoc and sensor networking, and has been involved in
the organizational and technical committee of several conferences
in the field. Dr. Santi is a member of ACM and SIGMOBILE.

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