Abstract
Wireless Sensor Networks are very convenient to monitor structures or even materials, as in McBIM project (Materials communicating with the Building Information Modeling). This project aims to develop the concept of “communicating concretes,” which are concrete elements embedding wireless sensor networks, for applications dedicated to Structure Health Monitoring in the construction industry. Due to applicative constraints, the topology of the wireless sensor network follows a chain-based structure. Node batteries cannot be replaced or easily recharged, it is crucial to evaluate the energy consumed by each node during the monitoring process. This area has been extensively studied leading to different energy models to evaluate energy consumption for chain-based structures. However, no simple, practical, and analytical network energy models have yet been proposed. Energy evaluation models of periodic data collection for chain-based structures are proposed. These models are compared and evaluated with an Arduino XBee–based platform. Experimental results show the mean prediction error of our models is 5%. Realizing aggregation at nodes significantly reduces energy consumption and avoids hot-spot problem with homogeneous consumptions along the chain. Models give an approximate lifetime of the wireless sensor network and communicating concretes services. They can also be used online by nodes for a self-assessment of their energy consumptions.
Highlights
Introduction and contextOver the past few decades, the rapid development of chip design made sensing node (SN) ubiquitous
The chain-based routing structure is suitable for a small network as that within one McBIM element
Before applying these techniques to real concrete, we first build a physical platform with the microprocessor chip Arduino and XBee wireless communication module to verify the usefulness regarding energy saving
Summary
Over the past few decades, the rapid development of chip design made sensing node (SN) ubiquitous. It has been applied vastly in areas from military application, manufacturing traceability, to health monitoring.[1,2] In the framework of Asset Monitoring, the concept of communicating material, proposed in 2009,3 relates to a material that can communicate with its surrounding environment, and store and process information Based on this concept, the McBIM (Material communicating with the Building Information Modeling) project,[4] funded by the ANR (French National Research Agency), has been coordinated by the CRAN Two other French research units (LAAS: the laboratory for Analysis and Architecture of Systems; LIB Burgundy Laboratory of Computer Science) and one company (360 Smart Connect/FINAO SAS) are involved.
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