LoRa洪水信息在土壤湿度远程监测中的应用

Raeth Peter, Branch Philip
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引用次数: 0

摘要

土壤水分传感已被证明是减少灌溉需求同时保持作物产量和质量的重要因素。考虑到全球明显的气候变化,以及在一些地区由此引发的干旱,农民找到减少用水的方法是必要的。随着世界人口的增长和对高质量食品需求的增加,精准灌溉变得更加重要。随着传感器的部署,这些都必须以某种方式进行监控。我们的计划采用无牌频率的无线电广播来实现无线遥感。互联网和手机是可供选择的解决方案。但是,这些需要的不仅仅是购置和使用某些设备和软件。这两种方法还涉及第三方服务及其持续收费。另一个假设是,这些服务是可用的、经济有效的和可靠的。使用LoRa(远程)协议的无线电广播本质上是实现用于低速率数据交换的收发器的低功耗手段。这些技术比蓝牙等技术在更长的范围内有效。LoRa通常使用LoRaWAN(正式广域网的LoRa)进行部署,但这涉及到额外的设备。本文讨论了一种仅使用相对低成本硬件(Arduino-Uno微控制器附带Dragino收发器)的方法。在无线网络上,信息从附着在微控制器上的传感器,通过继电器(考虑到地形变化和其他障碍物),流向连接到某个外部系统的接收器。LoRa硬件单元在所有组件之间保持一致,只有安装的软件不同。继电器和接收机使用自己不变的软件。然而,传感器单元的基线软件是根据所连接传感器的类型和数量进行调整的。每个传感器、中继器和接收器都有自己唯一的分配网络地址。作者已经构建并演示了本文中表达的思想的概念验证。讨论了项目走向现场应用时需要进行的后续工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
LoRa flood messaging applied to remote soil-moisture monitoring
Soil-Moisture sensing has proven to be an important factor in decreasing the need for irrigation while maintaining crop yield and quality. Farmers’ finding ways to minimize water use is necessary given the world’s obvious climate change and, in some areas, the resulting onslaught of drought. As the world’s population grows and the demand for higher-quality food increases, precision irrigation becomes even more essential. As sensors are deployed, these have to be monitored in some way. Our project employs radio broadcasts over unlicensed frequencies to implement wireless remote sensing. Internet and cellular are alternative solutions. However, those require more than the acquisition and implementation of certain equipment and software. Those two approaches also involve third-party services, and their continuing fees. An additional assumption is that those services are available, cost effective, and reliable. Radio broadcast using the LoRa (Long Range) protocol is essentially a low-power means for implementing transceivers for low-rate data exchange. These are effective over longer ranges than technologies such as Bluetooth. LoRa is often deployed using LoRaWAN (LoRa for formal Wide Area Networks) but that involves additional equipment. This paper discusses a means of using only relatively low-cost hardware (Arduino-Uno microcontrollers with attached Dragino transceivers). A wireless network is formed upon which messages flow from sensors attached to microcontrollers, through relays (to account for terrain variability and other obstructions), to a receiver connected to some external system. The LoRa hardware unit remains consistent across all components, with only the installed software varying. Relays and receivers utilize their own unchanging software. However, the sensor units' baseline software is adapted based on the types and numbers of sensors attached. Each sensor, relay, and receiver has its own unique assigned network address. The authors have constructed and demonstrated a proof-of-concept of the ideas expressed in this paper. Discussion is offered on future work required as the project moves toward field application.
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