Capacitive-Touch-Based Soil Monitoring Device with Exchangeable Sensor Probe

2018 IEEE SENSORS Pub Date : 2018-10-01 DOI:10.1109/ICSENS.2018.8589698

Ryo Shigeta, Y. Kawahara, G. D. Goud, Balaji Naik Banoth

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引用次数: 5

Abstract

Precision agriculture is a potential candidate for enhancing productivity and conserving water resources. In particular, irrigation activities can be optimized by collecting soil conditions using soil sensors to ensure water resource sustainability. While there are commercialized soil-monitoring systems, their cost is often too high for large-scale implementation. To guarantee water resource sustainability and food supply through irrigation optimization, large-scale deployments of soil sensors are required. Therefore, in this study, a cost-efficient soil monitoring device that employs capacitive touch sensing and printed electronics was developed. The target price of the proposed system that includes a sensor probe and a gateway is $1000. This is about three times cheaper than the commercially available systems and it is reasonably accurate. In India, irrigation optimization is essential to mitigate severe drought and water shortage caused by climate changes. Thus, to verify the usability of the proposed probes for irrigation management in a real farm field, the probes were tested in a maize field in Hyderabad. The deployed probes successfully detected soil moisture changes due to precipitation and irrigation, which is useful for irrigation optimization.

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带有可交换传感器探头的电容式触控土壤监测装置

精准农业是提高生产力和节约水资源的潜在选择。特别是，可以通过使用土壤传感器收集土壤条件来优化灌溉活动，以确保水资源的可持续性。虽然有商业化的土壤监测系统，但其成本往往太高，无法大规模实施。为了通过优化灌溉来保证水资源的可持续性和粮食供应，需要大规模部署土壤传感器。因此，在本研究中，开发了一种采用电容触摸传感和印刷电子技术的经济高效的土壤监测装置。该系统包括一个传感器探头和一个网关，其目标价格为1000美元。这比商用系统便宜三倍，而且相当准确。在印度，优化灌溉对于缓解气候变化造成的严重干旱和缺水至关重要。因此，为了验证所提出的探针在实际农田灌溉管理中的可用性，在海德拉巴的一块玉米田对探针进行了测试。部署的探针成功地检测了降水和灌溉引起的土壤水分变化，为灌溉优化提供了有用的数据。

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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2018 IEEE SENSORS

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