基于STM32的红树林水质采集与监测分析系统OA
Mangrove Water Quality Collection Monitoring and Analysis System Based on STM32
湛江红树林作为广东省面积最大的红树林湿地,其水质状况对生态系统健康至关重要.针对红树林分布广、点位分散,传统监测难以全面监管的问题,本研究设计了一套基于 STM32 的分布式水质监测系统.该系统采用 ESP8266通信模块构建数据传输网络,利用部署在不同点位的传感器阵列实时采集水体的盐度、pH 酸碱度等关键水质参数.通过云端数据平台,系统实现了监测数据的可视化展示、历史数据查询和超阈值自动报警等功能.实际应用表明,该系统能够有效覆盖湛江不同区域的红树林水域,为水质变化趋势分析和污染事件及时发现提供了可靠的技术手段,显著提升了红树林生态环境的监管效率和保护水平,为红树林生态系统的科学管理和保护治理提供了有力的技术支撑.
As the largest mangrove wetland in Guangdong Province,the water quality of the Zhanjiang mangrove wetland is crucial to the health of the ecosystem.To address the challenges posed by the wide distribution of mangroves and scattered monitoring points,which make comprehensive monitoring difficult,this study designs a distributed water quality monitoring system based on STM32.The system employs the ESP8266 communication module to establish a data transmission network,utilizing sensor arrays deployed at various locations to collect key water quality parameters such as salinity and pH in real time.Through a cloud-based data platform,the system enables monitoring data visualization,historical data query,and automatic over-threshold alerts.Practical applications demonstrate that the system can effectively cover mangrove waters across different areas of Zhanjiang,providing reliable technical means for analyzing water quality trends and promptly detecting pollution incidents.This significantly enhances the efficiency of ecological supervision and the level of protection for the mangrove ecosystem,providing strong technical support for its scientific management and conservation.
陈邦;李伟东;邓先紫缘
岭南师范学院 电子与电气工程学院,广东 湛江 524048岭南师范学院 电子与电气工程学院,广东 湛江 524048岭南师范学院 电子与电气工程学院,广东 湛江 524048
红树林湿地监测体系分布式传感器
mangrove wetlandmonitoring systemdistributed sensors
《现代信息科技》 2026 (7)
15-19,24,6
评论