Abstract
Developing energy-efficient MAC protocols for lightweight wireless systems has been a challenging task for decades because of the specific requirements of various applications and the varying environments in which wireless systems are deployed. Many MAC protocols for wireless networks have been proposed, often custom-made for a specific application. It is clear that one MAC does not fit all the requirements. So, how should a MAC layer deal with an application that has several modes (each with different requirements) or with the deployment of another application during the lifetime of the system? Especially in a mobile wireless system, like Smart Monitoring of Containers, we cannot know in advance the application state (empty container versus stuffed container). Dynamic switching between different energy-efficient MAC strategies is needed. Our architecture, called PluralisMAC, contains a generic multi-MAC framework and a generic neighbour monitoring and filtering framework. To validate the real-world feasibility of our architecture, we have implemented it in TinyOS and have done experiments on the TMote Sky nodes in the w-iLab.t testbed. Experimental results show that dynamic switching between MAC strategies is possible with minimal receive chain overhead, while meeting the various application requirements (reliability and low-energy consumption).
Highlights
Developing energy-efficient MAC protocols for lightweight wireless systems has been a challenging task for decades because of the specific requirements of various applications and the varying environments in which wireless systems are deployed
We expected to see no increase in current consumption because the sleep and listen scheme of the sink is independent of the number of nodes
In this article, we have described the smart container monitoring use case which made clear that multiple MAC strategies were needed to achieve a low-power system able to handle wireless communication with heterogeneous devices
Summary
Developing energy-efficient MAC protocols for lightweight wireless systems has been a challenging task for decades because of the specific requirements of various applications and the varying environments in which wireless systems are deployed. Many MAC protocols for wireless networks have been proposed, often custommade for a specific application. There is a shift from homogeneous devices towards heterogeneous devices This is exactly the problem we have encountered during the design and implementation of a solution of a smart container monitoring system. The architecture is a complex system of mobile and lightweight devices with stringent energy consumption requirements and varying requirements for the MAC layer because of the peculiarities of the monitoring application
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