不断发展的开源技术为农业遥感和监测提供了选择

D. Fisher, R. Fletcher, S. Anapalli
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引用次数: 4

摘要

各种传感和监测系统已经基于开源的概念和开源的硬件和软件组件开发出来。硬件组件的可用性和相对较低的成本以及软件组件的可用性和易用性使许多潜在用户能够获得以前无法获得的传感和监测技术。电子监测的进步和蜂窝通信技术的发展日益为远程监测提供更多、更简单和更便宜的选择。然而,由于2G和3G蜂窝网络服务不久将停止,许多现有的监控系统将需要重新设计,以在替代蜂窝网络上运行。我们开发了一个土壤湿度监测系统,该系统结合了更新的开源Arduino微控制器和最近推出的LTE Cat-M1蜂窝网络,通过蜂窝网络传输传感器测量值,以便在互联网网站上访问。监测系统建造电子电路的费用约为130美元,蜂窝网络接入和数据传输的费用每月不到1美元。数据传输成功率为95%,监测系统在整个作物生长季节连续运行,无需电池充电或维护。该监控系统的设计和运行可以作为其他远程监控系统的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evolving Open-Source Technologies Offer Options for Remote Sensing and Monitoring in Agriculture
A variety of sensing and monitoring systems have been developed based on the concept of open-source and on open-source hardware and software components. Availability and relatively low cost of hardware components and availability and ease of use of software components allow access to sensing and monitoring technologies that were previously unattainable to many potential users. Advances in electronic monitoring and evolving cellular communications technologies are increasingly offering more, simpler, and less expensive options for remote monitoring. Due to the near-future cessation of 2G and 3G cellular network services, however, many existing monitoring systems will need to be redesigned to operate on alternative cellular networks. A soil-moisture monitoring system was developed incorporating updated open-source Arduino microcontrollers and the recently introduced LTE Cat-M1 cellular network to transmit sensor measurements via the cellular network for access on an internet website. The monitoring system costs approximately US$130 to construct the electronic circuitry and less than US$1 per month for cellular network access and data transmission. Data were transmitted with a 95% success rate, and the monitoring system operated continuously throughout an entire crop growing season with no battery recharge or maintenance requirements. The design and operation of the monitoring system can serve as a basis for other remote monitoring systems.
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