Abstract
Although much work has been done since wireless sensor networks appeared, there is not a great deal of information available on real deployments that incorporate basic features associated with these networks, in particular multihop routing and long lifetimes features. In this article, an environmental monitoring application (Internet of Things oriented) is described, where temperature and relative humidity samples are taken by each mote at a rate of 2 samples/min and sent to a sink using multihop routing. Our goal is to analyse the different strategies to gather the information from the different motes in this context. The trade-offs between ‘sending always’ and ‘buffering locally’ approaches were analysed and validated experimentally, taking into account power consumption, lifetime, efficiency and reliability. When buffering locally, different options were considered such as saving in either local RAM or FLASH memory, as well different alternatives to reduce overhead with different packet sizes. The conclusion is that in terms of energy and durability, the best option is to reduce the overhead. Nevertheless, sending larger packets is not worthy when the probability of retransmission is high. If real-time monitoring is required, then sending always is better than buffering locally.
Highlights
Internet of Things (IoT) platforms are the basis for new value systems and the guide for development of new applications
In combination with wireless sensor networks, IoT systems become a powerful tool to sense the environment, some requirements are necessary for specific data gathering, like audio or video.[1]
A wireless sensor network (WSN) is a set of nodes, called motes, which have wireless communication and processing capabilities. These nodes work in a collaborative way, implementing multihop routing protocols designed to aid the collection of data gathered by Department of Computer Science, Universitat de Valencia, Valencia, Spain
Summary
Internet of Things (IoT) platforms are the basis for new value systems and the guide for development of new applications. A wireless sensor network (WSN) is a set of nodes, called motes, which have wireless communication and processing capabilities These nodes work in a collaborative way, implementing multihop routing protocols designed to aid the collection of data gathered by Department of Computer Science, Universitat de Valencia, Valencia, Spain. Motes are low-power, low-performance devices, equipped with a microcontroller system with a CPU and memories (RAM and FLASH), a radio frequency chipset following the IEEE 802.15.4:2006 standard,[2] various sensors and an autonomous power supply (in most cases, two AA batteries). This technology has been consolidated and several hardware and software options are currently available. There are several combinations for hardware and software as shown in Strazdins et al.;[7] as shown in Delamo et al.,[8] this combination (TelosB and TinyOS) is still the most optimum in terms of reliability, network lifetime and efficiency
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