Abstract
To solve the problems of monitoring system topology structure and joint ductility, as well as to improve the efficiency of agricultural planting, this study presents a greenhouse-monitoring system based on the advanced RISC machine (ARM) wireless sensor network. The design schemes of the hardware and software of the network nodes are presented, and the process of a ZigBee network coordinator is elucidated. The system uses ARM to control the wireless transceiver module for data transmission and reception as well to collect data through an inter-integrated circuit bus. The working-state data of the seeding machine are transmitted to the monitoring platform through the ZigBee network, which can achieve real-time data view. Test results show that the system has the advantages of a simple structure, a flexible node, and low power consumption. The effective monitoring of the agricultural seeding machine in a wireless environment is realized. This system can quickly monitor the agricultural seeding machine while working, and the data center allows reading the data for remote viewing and analysis. This system can also effectively reduce the workload of farmers, improve the efficiency of field sowing, and promote the rapid development of modern agriculture.
Highlights
With the rapid development of the information age, traditional farming has been replaced with information, and field work is moving toward the information and mechanical age
information technology (IT) is used in agricultural production to improve the efficiency of agricultural planting, increase the input–output ratio of agricultural production, acquire high-quality agricultural products, and reduce the amount of labor in the process of agricultural production
A remote monitoring and control system for a sowing machine with wireless information transmission function is constructed based on advanced RISC machine (ARM) embedded technology
Summary
With the rapid development of the information age, traditional farming has been replaced with information, and field work is moving toward the information and mechanical age. Wireless transmission technology remains within a small section of agricultural system research. A large agricultural seeding machine has a wide range of applications Such technology is widely used in field production and management for farmland precision seeding to improve the utilization of farmland resources, reduce the production cost of crops, enhance the quality of agricultural products and production, and decrease the damage to the environment. The application of ARM processors is mainly embodied in electronic products, wireless communication, network applications, and industrial control, among others. ARM embedded technology and GPRS communication network can be utilized to establish a remote data transmission system in agricultural fields. Agricultural wireless network and embedded technologies are being rapidly developed in China.
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