A versatile scalable smart waste-bin system based on resource-limited embedded devices

A. Papalambrou, Dimitrios Karadimas, J. Gialelis, A. Voyiatzis
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引用次数: 24

Abstract

This work presents the architecture, modelling, simulation, and physical implementation of a versatile, scalable system for use in common-type waste-bins that can perform and transmit accurate fill-level estimates while consuming minimal power and consisting of low-cost embedded components. The sensing units are based on ultrasonic sensors that provide ranging information which is translated to fill-level estimations based on extensive simulations in MATLAB and physical experiments. At the heart of the proposed implementation lies RFID technology with active RFID tags retrieving information and controlling the sensors and RFID readers receiving and interpreting information. Statistical processing of the simulation in combination with physical experiments and field tests verified that the system works accurately and efficiently with a tiny data-load fingerprint.
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一种基于资源有限的嵌入式设备的多功能可扩展智能垃圾箱系统
这项工作介绍了一个通用的、可扩展的系统的架构、建模、仿真和物理实现,该系统用于普通类型的垃圾箱,可以在消耗最小功率和由低成本嵌入式组件组成的情况下执行和传输准确的填充水平估计。传感单元基于超声波传感器,该传感器提供测距信息,并根据MATLAB和物理实验中的大量模拟将其转换为填充水平估计。所提出的实现的核心是RFID技术与有源RFID标签检索信息和控制传感器和RFID读取器接收和解释信息。仿真统计处理与物理实验和现场测试相结合,验证了该系统在极小的数据负载指纹下准确高效地工作。
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