Towards Design of Lightweight Spatio-Temporal Context Algorithms for Wireless Sensor Networks
Context represents any knowledge obtained from Wireless Sensor Networks (WSNs) about the object being monitored (such as time and location of the sensed events). Time and location are important constituents of context as the information about the events sensed in WSNs is comprehensive when it includ...
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ndltd-LACETR-oai-collectionscanada.gc.ca-OOU.#10393-198572014-06-14T03:49:21ZTowards Design of Lightweight Spatio-Temporal Context Algorithms for Wireless Sensor NetworksMartirosyan, AnahitWireless Sensor Networkscontext-awarenesstemporal event orderingtime synchronizationlocalizationroutingContext represents any knowledge obtained from Wireless Sensor Networks (WSNs) about the object being monitored (such as time and location of the sensed events). Time and location are important constituents of context as the information about the events sensed in WSNs is comprehensive when it includes spatio-temporal knowledge. In this thesis, we first concentrate on the development of a suite of lightweight algorithms on temporal event ordering and time synchronization as well as localization for WSNs. Then, we propose an energy-efficient clustering routing protocol for WSNs that is used for message delivery in the former algorithm. The two problems - temporal event ordering and synchronization - are dealt with together as both are concerned with preserving temporal relationships of events in WSNs. The messages needed for synchronization are piggybacked onto the messages exchanged in underlying algorithms. The synchronization algorithm is tailored to the clustered topology in order to reduce the overhead of keeping WSNs synchronized. The proposed localization algorithm has an objective of lowering the overhead of DV-hop based algorithms by reducing the number of floods in the initial position estimation phase. It also randomizes iterative refinement phase to overcome the synchronicity of DV-hop based algorithms. The position estimates with higher confidences are emphasized to reduce the impact of erroneous estimates on the neighbouring nodes. The proposed clustering routing protocol is used for message delivery in the proposed temporal algorithm. Nearest neighbour nodes are employed for inter-cluster communication. The algorithm provides Quality of Service by forwarding high priority messages via the paths with the least cost. The algorithm is also extended for multiple Sink scenario. The suite of algorithms proposed in this thesis provides the necessary tool for providing spatio-temporal context for context-aware WSNs. The algorithms are lightweight as they aim at satisfying WSN's requirements primarily in terms of energy-efficiency, low latency and fault tolerance. This makes them suitable for emergency response applications and ubiquitous computing.2011-03-29T19:39:13Z2011-03-29T19:39:13Z20112011-03-29Thèse / Thesishttp://hdl.handle.net/10393/19857en |
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Wireless Sensor Networks context-awareness temporal event ordering time synchronization localization routing |
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Wireless Sensor Networks context-awareness temporal event ordering time synchronization localization routing Martirosyan, Anahit Towards Design of Lightweight Spatio-Temporal Context Algorithms for Wireless Sensor Networks |
description |
Context represents any knowledge obtained from Wireless Sensor Networks (WSNs) about the object being monitored (such as time and location of the sensed events). Time and location are important constituents of context as the information about the events sensed in WSNs is comprehensive when it includes spatio-temporal knowledge.
In this thesis, we first concentrate on the development of a suite of lightweight algorithms on temporal event ordering and time synchronization as well as localization for WSNs. Then, we propose an energy-efficient clustering routing protocol for WSNs that is used for message delivery in the former algorithm.
The two problems - temporal event ordering and synchronization - are dealt with together as both are concerned with preserving temporal relationships of events in WSNs. The messages needed for synchronization are piggybacked onto the messages exchanged in underlying algorithms. The synchronization algorithm is tailored to the clustered topology in order to reduce the overhead of keeping WSNs synchronized.
The proposed localization algorithm has an objective of lowering the overhead of DV-hop based algorithms by reducing the number of floods in the initial position estimation phase. It also randomizes iterative refinement phase to overcome the synchronicity of DV-hop based algorithms. The position estimates with higher confidences are emphasized to reduce the impact of erroneous estimates on the neighbouring nodes.
The proposed clustering routing protocol is used for message delivery in the proposed temporal algorithm. Nearest neighbour nodes are employed for inter-cluster communication. The algorithm provides Quality of Service by forwarding high priority messages via the paths with the least cost. The algorithm is also extended for multiple Sink scenario.
The suite of algorithms proposed in this thesis provides the necessary tool for providing spatio-temporal context for context-aware WSNs. The algorithms are lightweight as they aim at satisfying WSN's requirements primarily in terms of energy-efficiency, low latency and fault tolerance. This makes them suitable for emergency response applications and ubiquitous computing. |
author |
Martirosyan, Anahit |
author_facet |
Martirosyan, Anahit |
author_sort |
Martirosyan, Anahit |
title |
Towards Design of Lightweight Spatio-Temporal Context Algorithms for Wireless Sensor Networks |
title_short |
Towards Design of Lightweight Spatio-Temporal Context Algorithms for Wireless Sensor Networks |
title_full |
Towards Design of Lightweight Spatio-Temporal Context Algorithms for Wireless Sensor Networks |
title_fullStr |
Towards Design of Lightweight Spatio-Temporal Context Algorithms for Wireless Sensor Networks |
title_full_unstemmed |
Towards Design of Lightweight Spatio-Temporal Context Algorithms for Wireless Sensor Networks |
title_sort |
towards design of lightweight spatio-temporal context algorithms for wireless sensor networks |
publishDate |
2011 |
url |
http://hdl.handle.net/10393/19857 |
work_keys_str_mv |
AT martirosyananahit towardsdesignoflightweightspatiotemporalcontextalgorithmsforwirelesssensornetworks |
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