Abstract
Virtual sensors provisioning is a central issue for sensors cloud middleware since it is responsible for selecting physical nodes, usually from Wireless Sensor Networks (WSN) of different owners, to handle user’s queries or applications. Recent works perform provisioning by clustering sensor nodes based on the correlation measurements and then selecting as few nodes as possible to preserve WSN energy. However, such works consider only homogeneous nodes (same set of sensors). Therefore, those works are not entirely appropriate for sensor clouds, which in most cases comprises heterogeneous sensor nodes. In this paper, we propose ACxSIMv2, an approach to enhance the provisioning task by considering heterogeneous environments. Two main algorithms form ACxSIMv2. The first one, ACASIMv1, creates multi-dimensional clusters of sensor nodes, taking into account the measurements correlations instead of the physical distance between nodes like most works on literature. Then, the second algorithm, ACOSIMv2, based on an Ant Colony Optimization system, selects an optimal set of sensors nodes from to respond user’s queries while attending all parameters and preserving the overall energy consumption. Results from initial experiments show that the approach reduces significantly the sensor cloud energy consumption compared to traditional works, providing a solution to be considered in sensor cloud scenarios.
Highlights
IntroductionA Wireless Sensor Network (WSN) can be described as a set of small electronic devices (called sensor nodes) capable of sensing environment conditions (such as temperature, humidity, and light), processing and transmitting data wirelessly through a transceiver unit
A Wireless Sensor Network (WSN) can be described as a set of small electronic devices capable of sensing environment conditions, processing and transmitting data wirelessly through a transceiver unit
Since we focused on sensed data and the prediction of the data using correlations and regression, ACxSIMv2 is recommended only for monitoring type application, i.e., all sensor nodes periodically gather information by monitoring phenomena on a specific geographic area
Summary
A Wireless Sensor Network (WSN) can be described as a set of small electronic devices (called sensor nodes) capable of sensing environment conditions (such as temperature, humidity, and light), processing and transmitting data wirelessly through a transceiver unit. These devices can actuate on the environment, according to its programming. The sensors nodes have limited processing capability, memory, and bandwidth, and usually are battery powered [12] These constraints hinder the development of WSN applications [13]
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