Design of remote control system for intelligent irrigation based on ZigBee and GPRS

Q3 Computer Science International Journal of Intelligent Systems Technologies and Applications Pub Date : 2018-10-04 DOI:10.1504/ijista.2018.10015377

Zhang Hongbo

引用次数: 0

Abstract

The sensor nodes of wireless sensor networks (WSNs)-based agricultural monitoring system are required to collect the environmental data periodically, including temperature and humidity, and additionally anytime monitoring shall be required to be realised among the monitored area with minimised quantity of sensor nodes. To meet the mentioned goal, a solar power-moving schedule of mobile-based optimal coverage (SPMSC) is proposed. In accordance with the content of SPMSC, every sensor node is able to obtain energy through the solar panel. The moving schedule of sensor nodes is determined through predicting the quantity of solar power as to realise the optimal coverage project with the minimised quantity of sensor nodes and the energy consumption. As the simulation result indicates, the proposed SPMSC, compared with other similar projects, has the 4% decrease of sensor node quantity and the 10% increase of the network lifetime.

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基于ZigBee和GPRS的智能灌溉远程控制系统设计

基于无线传感器网络(WSNs)的农业监测系统的传感器节点需要周期性采集环境数据，包括温度、湿度等，并且需要在传感器节点数量最少的情况下实现对被监测区域的随时监测。为实现上述目标，提出了一种基于移动的最优覆盖(SPMSC)方案。根据SPMSC的内容，每个传感器节点都可以通过太阳能电池板获得能量。通过对太阳能发电量的预测，确定传感器节点的移动计划，以实现传感器节点数量和能耗最小的最优覆盖方案。仿真结果表明，与其他类似方案相比，该方案的传感器节点数量减少了4%，网络寿命延长了10%。

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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来源期刊

International Journal of Intelligent Systems Technologies and Applications Computer Science-Computer Science (all)

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： Intelligent systems refer broadly to computer embedded or controlled systems, machines and devices that possess a certain degree of intelligence. IJISTA, a peer-reviewed double-blind refereed journal, publishes original papers featuring innovative and practical technologies related to the design and development of intelligent systems. Its coverage also includes papers on intelligent systems applications in areas such as manufacturing, bioengineering, agriculture, services, home automation and appliances, medical robots and robotic rehabilitations, space exploration, etc. Topics covered include: -Robotics and mechatronics technologies- Artificial intelligence and knowledge based systems technologies- Real-time computing and its algorithms- Embedded systems technologies- Actuators and sensors- Mico/nano technologies- Sensing and multiple sensor fusion- Machine vision, image processing, pattern recognition and speech recognition and synthesis- Motion/force sensing and control- Intelligent product design, configuration and evaluation- Real time learning and machine behaviours- Fault detection, fault analysis and diagnostics- Digital communications and mobile computing- CAD and object oriented simulations.

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