Parallel and Network Algorithms and Applications for Steiner Trees and Voronoi Diagram

Muhammad, Rashid Bin

30 November 2009

No description available.

Computer Science

Steiner tree

Voronoi diagram

range assignment

geometric routing

Static Range Assignment In Wireless Sensor Networks

Uzun, Erkay

01 October 2010

Energy is a limited source in wireless sensor networks and in most applications, it is non-renewable / so designing energy-effcient communication patterns is very important. In this thesis, we de

A Sleep-Scheduling-Based Cross-Layer Design Approach for Application-Specific Wireless Sensor Networks

Ha, Rick Wan Kei

January 2006

The pervasiveness and operational autonomy of mesh-based wireless sensor networks (WSNs) make them an ideal candidate in offering sustained monitoring functions at reasonable cost over a wide area. To extend the functional lifetime of battery-operated sensor nodes, stringent sleep scheduling strategies with communication duty cycles running at sub-1% range are expected to be adopted. Although ultra-low communication duty cycles can cast a detrimental impact on sensing coverage and network connectivity, its effects can be mitigated with adaptive sleep scheduling, node deployment redundancy and multipath routing within the mesh WSN topology. This work proposes a cross-layer organizational approach based on sleep scheduling, called Sense-Sleep Trees (SS-Trees), that aims to harmonize the various engineering issues and provides a method to extend monitoring capabilities and operational lifetime of mesh-based WSNs engaged in wide-area surveillance applications. Various practical considerations such as sensing coverage requirements, duty cycling, transmission range assignment, data messaging, and protocol signalling are incorporated to demonstrate and evaluate the feasibility of the proposed design approach.

Electrical & Computer Engineering

wireless sensor network

energy efficiency

sleep scheduling

cross-layer design

Sense-Sleep Trees

implicit acknowledgements

integer linear programming

network flow model

transmission range assignment

A Sleep-Scheduling-Based Cross-Layer Design Approach for Application-Specific Wireless Sensor Networks

Ha, Rick Wan Kei

January 2006

The pervasiveness and operational autonomy of mesh-based wireless sensor networks (WSNs) make them an ideal candidate in offering sustained monitoring functions at reasonable cost over a wide area. To extend the functional lifetime of battery-operated sensor nodes, stringent sleep scheduling strategies with communication duty cycles running at sub-1% range are expected to be adopted. Although ultra-low communication duty cycles can cast a detrimental impact on sensing coverage and network connectivity, its effects can be mitigated with adaptive sleep scheduling, node deployment redundancy and multipath routing within the mesh WSN topology. This work proposes a cross-layer organizational approach based on sleep scheduling, called Sense-Sleep Trees (SS-Trees), that aims to harmonize the various engineering issues and provides a method to extend monitoring capabilities and operational lifetime of mesh-based WSNs engaged in wide-area surveillance applications. Various practical considerations such as sensing coverage requirements, duty cycling, transmission range assignment, data messaging, and protocol signalling are incorporated to demonstrate and evaluate the feasibility of the proposed design approach.

Electrical & Computer Engineering

wireless sensor network

energy efficiency

sleep scheduling

cross-layer design

Sense-Sleep Trees

implicit acknowledgements

integer linear programming

network flow model

transmission range assignment