Effect of Sugarcane Vegetation On Path-Loss Between CC2650 and CC2538 Soc Based Sensor Nodes Operating At 2.4 Ghz Radio Frequency (Rf)

Here we introduce so-far the largest subject-rated database of its kind, namely, "Effect of Sugarcane vegetation on path-loss between CC2650 and CC2538 SoC 32-bit Arm Cortex-M3 based sensor nodes operating at 2.4 GHz Radio Frequency (RF)". This database contains received signal strength measurements collected through campaigns in the IEEE 802.15.4 standard precision agricultural monitoring infrastructure developed for Sugarcane crop monitoring from period 20/11/2019 to 20/06/2020 for CC2538 MCU based sensor nodes and 20/11/2019 to 20/06/2020 for CC2650 MCU based sensor nodes.Note: The conducted measurement campaigns are part of a research whose results are presented in manuscript "NSGA-III Based Heterogeneous Transmission Range selection for Node Deployment in IEEE 802.15.4 Infrastructure for Sugarcane and Rice Crop Monitoring" and are currently under peer review in " IEEE Transactions on Wireless Communications" (Paper-TW-Feb-21-027).

本节中，我们向您介绍迄今为止该领域最大的主题评级数据库，即“甘蔗植被对基于32位Arm Cortex-M3架构的CC2650与CC2538 SoC之间的路径损耗影响数据库”。该数据库收录了在针对甘蔗作物监测而开发的IEEE 802.15.4标准高精度农业监测基础设施中，于2019年11月20日至2020年6月20日期间，针对基于CC2538微控制器的传感器节点以及基于CC2650微控制器的传感器节点所进行的信号强度测量数据。备注：所进行的测量活动是某项研究的一部分，其研究结果已发表在《基于NSGA-III的异构传输范围选择：用于甘蔗和水稻作物监测的IEEE 802.15.4基础设施节点部署》的手稿中，并正在《IEEE无线通信汇刊》中进行同行评审（Paper-TW-Feb-21-027）。