摘 要
随着农业现代化进程的加快,农机具服务管理面临效率低、信息滞后和服务响应慢等问题。为提升农机具服务的信息化与智能化水平,本文设计并实现了一套基于SpringMVC框架的农机具服务系统。该系统旨在通过整合农机资源、优化服务流程,提高农机使用效率和管理水平。研究采用B/S架构,结合MySQL数据库与Tomcat服务器,构建了包括用户管理、设备登记、维修申请、调度安排及服务评价在内的核心功能模块。系统前端运用HTML5与Bootstrap实现响应式界面,后端通过SpringMVC+MyBatis实现业务逻辑分层与数据持久化处理。测试结果表明,系统运行稳定,响应速度快,具备良好的可扩展性与安全性。本研究的创新点在于将轻量级Java框架应用于农机服务领域,并引入服务闭环管理机制,提升了服务过程的可视化与可控性。该系统的实施有助于推动农机服务管理模式向数字化、智能化转型,对提升农业生产效率具有实际意义。关键词:农机具服务系统;SpringMVC框架;智能化管理;服务闭环机制;B/S架构
ABSTRACT
With the acceleration of agricultural modernization, farm machinery service management is confronted with issues such as low efficiency, information lag, and slow service response. To enhance the informatization and intelligence level of farm machinery services, this paper designs and implements a farm machinery service system based on the SpringMVC fr amework. The system aims to improve the efficiency and management level of farm machinery usage by integrating machinery resources and optimizing service processes. The research adopts a B/S architecture, combined with a MySQL database and a Tomcat server, to construct core functional modules including user management, equipment registration, maintenance requests, dispatch scheduling, and service evaluation. The front-end employs HTML5 and Bootstrap to achieve a responsive interface, while the back-end utilizes SpringMVC and MyBatis to handle layered business logic and data persistence. Testing results indicate that the system operates stably, responds quickly, and possesses good scalability and security. The innovation of this study lies in the application of a lightweight Java fr amework in the field of farm machinery services and the introduction of a closed-loop service management mechanism, which enhances the visibility and controllability of the service process. The implementation of this system contributes to promoting the transformation of farm machinery service management toward digitization and intelligence, holding practical significance for improving agricultural production efficiency.
Keywords: Agricultural Machinery Service System; Springmvc fr amework; Intelligent Management; Service Closed Loop Mechanism; B/s Architecture
目 录
绪 论 1
第一章 基于SpringMVC的农机具服务系统架构设计 2
1.1 系统整体结构设计 2
1.2 SpringMVC框架技术选型分析 2
1.3 系统模块划分与功能设计 2
1.4 系统开发环境与运行平台构建 3
第二章 基于SpringMVC的农机具服务系统数据库设计 4
2.1 数据库需求分析 4
2.2 数据表结构设计 4
2.3 数据访问层实现机制 5
2.4 数据安全性与一致性保障 5
第三章 基于SpringMVC的农机具服务系统功能实现 6
3.1 用户注册与登录功能实现 6
3.2 农机具信息管理模块开发 6
3.3 服务预约与订单处理实现 7
3.4 系统消息通知机制设计 7
第四章 基于SpringMVC的农机具服务系统测试与优化 8
4.1 系统功能测试方案设计 8
4.2 性能测试与响应效率分析 8
4.3 系统部署与运行稳定性评估 9
4.4 基于用户反馈的系统优化策略 9
结 论 10
参考文献 11
致 谢 12
