Electronic sensors to monitor functionality and usage trends of rural water infrastructure in Plateau State, Nigeria

Q1 Economics, Econometrics and Finance

Development Engineering Pub Date : 2022-01-01 DOI:10.1016/j.deveng.2022.100100

Taylor Sharpe , Chantal Iribagiza , Emmanuel Iorkumbur , Jeremy Coyle , Crystal Fenwick , Ellen Greggio , Peter Kassam , John Feighery , Luis Andres , Evan Thomas

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Abstract

Internet-connected sensor technologies have recently been used to monitor water service infrastructure in remote settings. In this study, 397 groundwater pumps were observed in Plateau State, Nigeria over 12 months in 2021. Two hundred of these sites were instrumented with remotely reporting electronic sensors, including 100 hand-pump sensors, 50 electrical pump sensors, and 50 cistern water-level sensors. Every two months, phone calls and site visits were used to collect a ground-truth of pump functionality: whether the pump was capable of delivering water, regardless of actual use. Our study examined: (1) What are the operating characteristics and trends of these different kinds of water pumps?; (2) Can water-point functionality be predicted with electronic sensors?; and (3) Does the instrumented water-point sample accurately represent average water-system functionality across the region? An automated classifier generated functional/non-functional diagnostics for instrumented pumps on a weekly basis. Classifier diagnostics were compared to ground-truth data, showing an overall accuracy of 91.7% (96.1% for hand-pumps, 63.9% for cisterns, and 93.2% for electrical boreholes), with high fleet-wide sensitivity in correctly identifying a functional pump (94.4%), but poor overall specificity in correctly identifying a non-functional, broken pump (25.0%). This discrepancy is attributable to the sensors’ difficulty in distinguishing between a broken pump and an unused pump. Varied patterns were seen in pump usage as a function of rainfall, with hand-pump use decreasing significantly, electrical pump usage decreasing to a lesser degree, and cistern use increasing in response to local rainfall. A comparison of the 200 instrumented to 197 non-instrumented sites showed statistically similar repair and failure rates. The high overall accuracy of the sensor–diagnostic system—and the demonstration that sensor-instrumented sample sites can represent population-level breakdown and repair frequencies—suggests this technology’s utility in supporting sample-based monitoring of overall water pump functionality and water volume delivery. However, the poor performance of the system in distinguishing between broken and unused pumps will limit its ability to trigger repair activities at individual pumps.

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监测尼日利亚高原州农村水基础设施功能和使用趋势的电子传感器

互联网连接的传感器技术最近被用于监测偏远地区的供水服务基础设施。在本研究中，在2021年的12个月内，在尼日利亚高原州观察了397个地下水泵。其中200个站点安装了远程报告电子传感器，包括100个手动泵传感器、50个电动泵传感器和50个蓄水池水位传感器。每两个月，通过电话和实地考察来收集水泵功能的基本真相:不管实际使用情况如何，水泵是否能够输送水。我们的研究考察了:(1)这些不同类型的水泵的运行特点和趋势是什么?(2)电子传感器能否预测水点功能?(3)测量的水点样本是否准确地代表了整个地区的平均水系统功能?自动分类器每周为仪表泵生成功能/非功能诊断。将分类器诊断与地面真实数据进行比较，显示总体准确率为91.7%(手动泵为96.1%，水箱为63.9%，电钻孔为93.2%)，在正确识别功能泵方面具有很高的灵敏度(94.4%)，但在正确识别非功能，损坏泵方面的总体特异性较差(25.0%)。这种差异是由于传感器难以区分损坏的泵和未使用的泵。水泵的使用模式随着降雨量的变化而变化，手泵的使用显著减少，电动泵的使用减少的程度较小，而蓄水池的使用则随着当地降雨量的增加而增加。对200个仪器位置和197个非仪器位置的比较显示了统计学上相似的修复和故障率。传感器诊断系统的高整体准确性，以及传感器仪器采样点可以代表人口水平的故障和修复频率的证明，表明该技术在支持基于样本的整体水泵功能和水量输送的监测方面的实用性。然而，该系统在区分损坏泵和未使用泵方面表现不佳，这将限制其在单个泵上触发维修活动的能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Development Engineering Economics, Econometrics and Finance-Economics, Econometrics and Finance (all)

CiteScore

4.90

自引率

0.00%

发文量

审稿时长

31 weeks

期刊介绍： Development Engineering: The Journal of Engineering in Economic Development (Dev Eng) is an open access, interdisciplinary journal applying engineering and economic research to the problems of poverty. Published studies must present novel research motivated by a specific global development problem. The journal serves as a bridge between engineers, economists, and other scientists involved in research on human, social, and economic development. Specific topics include: • Engineering research in response to unique constraints imposed by poverty. • Assessment of pro-poor technology solutions, including field performance, consumer adoption, and end-user impacts. • Novel technologies or tools for measuring behavioral, economic, and social outcomes in low-resource settings. • Hypothesis-generating research that explores technology markets and the role of innovation in economic development. • Lessons from the field, especially null results from field trials and technical failure analyses. • Rigorous analysis of existing development "solutions" through an engineering or economic lens. Although the journal focuses on quantitative, scientific approaches, it is intended to be suitable for a wider audience of development practitioners and policy makers, with evidence that can be used to improve decision-making. It also will be useful for engineering and applied economics faculty who conduct research or teach in "technology for development."