Browsing by Author "Sacramento, David"
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- Data storage system for wireless sensor networksPublication . Sacramento, David; Correia, NoéliaWireless sensor networks (WSNs) are starting to have a high impact on our societies and, for next generation WSNs to become more integrated with the Internet, researchers recently proposed to embed Internet Protocol (IP) v6 into such very constrained networks. Also, Constrained Application Protocol (CoAP) and Observe have been proposed for RESTful services to be provided. CoAP can be used not only between nodes on the same constrained network but also with other nodes in the Internet. The latter is possible if CoAP is translated to Hyper Text Transfer Protocol (HTTP). With CoAP/Observe, a client may store notifications in it and use a stored notification, as long as it is fresh, to serve other clients requesting it, without contacting the origin server. However, the use of CoAP/Observe for clients to be notified of resource changes, together with the possibility of incorporating proxies, raise optimization issues when multiple requests for observation are present in a network. These optimization issues involve registration steps, energy saving, consistency and caching. Registration steps must be carefully planned (which proxies to use), while keeping data consistency and timeliness, so that energy is saved. In this thesis, a careful planning of registration steps for data/notification storage is proposed. That is a framework for the planning of such registration steps, together with the aggregation and scheduling of notification deliveries at proxies, so that energy saving is maximized, bandwidth is used efficiently and the overall delay is reduced. This framework can be applied to different types of applications. A heuristic approach is also proposed for solutions to be obtained faster.
- Dynamic aggregation and scheduling in CoAP/Observe-based wireless sensor networksPublication . Correia, Noélia; Sacramento, David; Schutz, G.Wireless sensor networks (WSNs) are starting to have a high impact on our societies and, for next generation WSNs to become more integrated with the Internet, researchers recently proposed to embed IPv6 into such very constrained networks. Also, constraint application protocol (CoAP) and Observe have been proposed for RESTful services to be provided. CoAP/Observe supports the use of caches/proxies and, for this reason, an observation request may resort to multiple client/server registration steps in order to get notifications. Here, we propose to plan the multiple registration steps, at proxies, of multiple observation requests in order to make proper aggregation/scheduling of notifications for transmission. This leads to less energy consumption and to an effective use of bandwidth, avoiding energy depletion of nodes, and increasing the network lifetime. Besides, mathematically formalizing the problem, a heuristic approach is developed and a discussion on how to incorporate algorithm's decision into the network is done. The proposed framework can be applied to multiple application domains (e.g., monitoring, machine to machine).