摘 要
农业科技和智能化技术的快速发展推动了农业机械智能化监测系统的发展,成为现代农业的关键趋势。本文探讨了该系统的构建和应用,旨在提供精准、高效、智能的监测手段,促进农业现代化。农业机械在现代农业中扮演着重要角色,但传统监测方法效率低、误差大。因此,开发智能化监测系统,实时监测和智能分析农业机械运行状态,具有显著的实际意义和应用价值。系统由传感器模块、数据处理模块、通信模块和监控中心组成,分别负责监测、数据处理、数据传输和人机交互。设计时考虑了系统的可扩展性、稳定性和易用性,采用模块化设计,优化算法和硬件,简化界面和操作流程。该系统适用于多种农业机械,能及时发现故障,提高可靠性和安全性,优化作业效率和生产效益,实现远程管理和维护,降低人工成本。
关键词:农业机械;智能化监测;系统设计
DESIGN AND APPLICATION OF INTELLIGENT MONITORING SYSTEM FOR AGRICULTURAL MACHINERY
ABSTRACT
The rapid development of agricultural science and technology and intelligent technology has promoted the development of intelligent monitoring system of agricultural machinery, which has become the key trend of modern agriculture. This paper discusses the construction and application of the system, aiming to provide accurate, efficient and intelligent monitoring means to promote agricultural modernization. Agricultural machinery plays an important role in modern agriculture, but the traditional monitoring methods have low efficiency and large error. Therefore, it is of great practical significance and application value to develop intelligent monitoring system, real-time monitoring and intelligent analysis of agricultural machinery operation status. The system consists of sensor module, data processing module, communication module and monitoring center, respectively responsible for monitoring, data processing, data transmission and human-computer interaction. The scalability, stability and ease of use of the system are considered, using modular design, optimizing the algorithm and hardware, and simplifying the interface and operation process. The system is suitable for a variety of agricultural machinery, which can find faults in time, improve reliability and safety, optimize operation efficiency and production efficiency, realize remote management and maintenance, and reduce labor costs.
KEY WORDS:Agricultural machinery; Intelligent monitoring; System design
目 录
摘 要 I
ABSTRACT II
第1章 绪论 1
1.1 研究背景 1
1.2 国内外研究现状 1
第2章 农业机械智能化监测系统概述 2
2.1 系统组成与工作原理 2
2.2 监测系统的关键技术 2
第3章 智能化监测系统的硬件设计 3
3.1 传感器的选择与配置 3
3.2 数据采集单元设计 3
3.3 通讯接口设计 4
3.4 电源管理与保护机制 4
第4章 智能化监测系统的软件设计 6
4.1 数据接收与处理算法 6
4.2 用户界面设计 6
4.3 故障诊断与预警机制 7
4.4 数据存储与管理 7
第5章 结论 9
参考文献 10
致 谢 11
