Abstract
Many researchers have been attracted by a wireless sensor and actuator network (WSAN) for its wide range of applications. In a WSAN, embedded sensors detect and conjecture environmental and personal conditions and actuators provide users with information services and environmental control which are suited for time, place, occasion, and people. Since it apparently is wasteful and redundant to deploy an independent WSAN for each of envisioned applications, building a multi-purpose WSAN consisting of heterogeneous sensors and actuators and sharing them among applications are considered promising. However, we need a mechanism to effectively share available resources among concurrent applications while taking into account application requirements and resources. Although there are several proposals on centralized or deterministic device assignment mechanisms, they suffer from difficulty in designing an appropriate set of rules with fine-tuned parameters. In this paper, we propose a fully distributed and self-organizing device assignment mechanism by adopting a response threshold model, which imitates division of labors in a colony of social insects. Our proposal does not require deterministic and complicated rules and appropriate device assignment emerges as a consequence of autonomous decision of individual nodes. Through simulation experiments, we confirmed the our proposal accomplishes as effective device assignment as an existing deterministic mechanism and our proposal is less sensitive to parameter setting errors.
Highlights
Many researchers have been actively working in the field of wireless sensor and actuator networks (WSANs) [1]
A WSAN consists of embedded sensors, e.g. thermometer, hygrometer, and motion sensor, that detect and obtain environmental and personal conditions and actuators, e.g. heater, cooler, buzzer, light, and switch, that control environment and machinery
Applications use the same kind of devices in the same way, their WSANs are made of dedicated nodes and independent from each other with current form of deployment
Summary
Many researchers have been actively working in the field of wireless sensor and actuator networks (WSANs) [1]. A decision on device assignment must be made taking into account a variety of conditions, e.g. the degree of device sharing and the amount of residual energy, and it is not trivial For this purpose, there are several proposals on dynamic device assignment [8, 9], but they usually employ rule-based mechanisms. As will be verified in the paper, our proposal is less sensitive to parameter setting than the existing mechanism It implies that our proposal can be used in the area where a variety of applications emerge and their requirements dynamically change.
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