Abstract
Nowadays, sensor networks are composed of a great number of tiny resource-constraint nodes, whose management is increasingly more complex. In fact, although collaborative or choreographic task execution schemes are which fit in the most perfect way with the nature of sensor networks, they are rarely implemented because of the high resource consumption of these algorithms (especially if networks include many resource-constrained devices). On the contrary, hierarchical networks are usually designed, in whose cusp it is included a heavy orchestrator with a remarkable processing power, being able to implement any necessary management solution. However, although this orchestration approach solves most practical management problems of sensor networks, a great amount of the operation time is wasted while nodes request the orchestrator to address a conflict and they obtain the required instructions to operate. Therefore, in this paper it is proposed a new mechanism for self-managed and choreographed task execution in sensor networks. The proposed solution considers only a lightweight gateway instead of traditional heavy orchestrators and a hardware-supported algorithm, which consume a negligible amount of resources in sensor nodes. The gateway avoids the congestion of the entire sensor network and the hardware-supported algorithm enables a choreographed task execution scheme, so no particular node is overloaded. The performance of the proposed solution is evaluated through numerical and electronic ModelSim-based simulations.
Highlights
Wireless Sensor Networks (WSN) have evolved from a theoretical and research paradigm to be a real and practical technology
Collaborative or choreographed task execution schemes are which fit in the most perfect way with the nature of sensor networks, as they enable the creation of flexible ad hoc resource pools being able to execute delegated tasks [8]
Next-generation WSN, applied to Industry 4.0 for example, must operate at real-time, so new and more efficient management solutions are required. In this paper it is proposed a new solution for self-managed and choreographed task execution in sensor networks, which is adapted to resource-constraint devices and may be implemented in large WSN
Summary
Wireless Sensor Networks (WSN) have evolved from a theoretical and research paradigm to be a real and practical technology. Besides, WSN have been generalized [4], so they are understood as sets of wireless smart nodes (including each one, sensors, actuators and processing devices) networked via radio links. With this new approach, WSN can provide information (which must be compressed and transmitted to user applications) as traditionally and execute and get the result of tasks which are delegated by high-level applications. First real WSN were composed of a small and homogeneous collection of nodes with a medium size [5] Nodes in these first deployments had a mid-range computing power, with enough resources to execute both data and control processes.
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