多路数据采集与处理模型的设计及水分传感器埋设位置优化  被引量：11

作　　者：王凡[1] 黄磊[1] 吴素萍[1] 李堃[2] 李建设[2] 高艳明[2] 曹云娥[2] 

机构地区：[1]宁夏大学数学计算机学院,银川750021 [2]宁夏大学农学院,银川750021

出　　处：《农业工程学报》2015年第21期148-153,共6页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家科技支撑计划课题(2014BAD05B02);宁夏大学科技开发与应用研究基金项目(KF1401)

摘　　要：为优化土壤水分传感器的埋设位置,该文针对宁夏日光温室滴灌黄瓜田间的土壤水分传感器埋设位置进行优化试验,确定出最佳埋设深度和宽度。利用最小二乘法对澳大利亚生产的MP406土壤水分传感器进行标定,得到水分利用效率的拟合值与实测值的相关性系数为0.9906。设计了多路数据自动采集监测与灌溉系统,可同时获取不同处理的18个水分传感器数据,通过远程客户端实时下载和监控水分数据并实现自动灌溉,通过远程手机短信监控功能,进行手机短信命令控制一个或多个处理的实时灌溉,系统可同时测量不同处理的灌水量。计算水分利用效率和产量,分析传感器水分数据的差异和相关系数,确定出土壤水分传感器在宁夏日光温室滴灌黄瓜田间的最佳埋设深度和宽度位置,该研究方法为确定土壤水分传感器的埋设深度及宽度提供可行的参考方案。With soil moisture sensors being widely used in precision irrigation, soil moisture is measured with soil moisture sensor to guide irrigation, as well as to improve water use efficiency and yield of crops. But because of the complexity of soil moisture sensor principle and soil composition, it will lead to the larger error between the measured and the actual value when using soil moisture sensor. In addition, soil moisture sensor has higher price. Therefore more sensors buried will increase the cost of irrigation system, and influence the popularization of irrigation system. So it is important to study the water status of the whole field with fewer sensors. The studies aiming at the soil moisture sensor laying position are mainly focused on buried depth, but there are few experimental studies of combining embedment width and depth. In this paper, the multi-channel data acquisition and monitoring system is designed, and the laying deepness and wideness of moisture sensors is studied in the cucumber drip irrigating field of the greenhouse in Ningxia. In addition, the calibration model of soil moisture sensor is also researched. Firstly, the calibration model of MP406 soil moisture sensor（made in Australia） is studied; thus the quadratic curve fitting of the experimental sensor calibration is got by the least squares method, and the calibration model for soil moisture sensor in Ningxia area is established. The errors between the fitting values and the measured values are calculated, in which the maximum error is 2.33%, and the correlation coefficient（r） is 0.9906. Then the multi-channel automatic data acquisition and monitoring system is designed and realized. The system is made up of 5 parts, including sensors（2 groups, 9 sensors each group）, data acquisition devices（master data acquisition device and extended data acquisition device）, GPRS（general packet radio service） wireless transmission module, remote PC terminal and remote mobile phone terminal. Data of 18 moisture sensors of different exp

关 键 词：水分 模型 优化 自动数据采集 滴灌 水分传感器 标定模型 埋设深宽度 

分 类 号：S275.6[农业科学—农业水土工程]