Abstract
The development of the unmanned aircraft systems is envisioned to greatly reduce the energy consumption of sensor nodes in data gathering process using unmanned aircraft systems as mobile sinks. In traditional sensor networks, compressive sensing and clustering are two key energy-efficient techniques for data gathering. However, how to integrate two techniques into the data gathering for unmanned aircraft system–aided wireless sensor networks effectively is still an open problem. Moreover, most clustering schemes focus on the cluster head selection strategy and simplified the problem of cluster member selection, and most compressive sensing schemes are not integrated with the clustering strategy. To this end, this article studies the problem of integrating compressive sensing with clustering for data gathering in unmanned aircraft system–aided networks. We first give a theoretical formulation of this problem. Considering the non-deterministic polynomial-time hard complexity of the problem, we present two algorithms by jointly considering the compressive ratio variation factor and the distance factor to find near-optimal solutions heuristically. Evaluations based on real data traces show that the proposed algorithms greatly reduced the energy consumption of sensor nodes efficiency.
Highlights
The battery-powered wireless sensor networks (WSNs) promise effective ways for plenty of applications such as environmental monitoring, civil infrastructure monitoring, and health care, the energy problem remains one of the major barriers preventing the complete exploitation of this technology.[1,2,3,4,5,6,7] Recently, the development of the unmanned aircraft systems (UASs) makes it possible to collect data from ground sensor nodes by UASs serving as mobile sinks
The first algorithm is data gathering scheme (DGS), which guarantees that the energy consumption increment of the network is minimized when a sensor node joins in a cluster
Since we only focus on the energy efficiency of the sensor nodes, virtual cluster heads (CHs) and the virtual UAS will not affect the validity of the testing results
Summary
The battery-powered wireless sensor networks (WSNs) promise effective ways for plenty of applications such as environmental monitoring, civil infrastructure monitoring, and health care, the energy problem remains one of the major barriers preventing the complete exploitation of this technology.[1,2,3,4,5,6,7] Recently, the development of the unmanned aircraft systems (UASs) makes it possible to collect data from ground sensor nodes by UASs serving as mobile sinks. The first algorithm is data gathering scheme (DGS), which guarantees that the energy consumption increment of the network is minimized when a sensor node joins in a cluster. After all clusters are formed, sensor nodes transmit their data to the CH by a spanning tree with the hybrid-CS scheme,[19] CHs transmit data to the UAS.
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