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面向突发性水污染事件的多传感器动态组网立体监测OA北大核心CSTPCD

Dynamic Monitoring Network with Multi-sensors for Sudden Water Pollution Events

中文摘要英文摘要

针对突发性水污染事件应急监测和智能模拟分析需求,研究了多传感器立体协同监测模型,建立了突发性水污染事件的时间、空间属性和传感器观测性能之间的相关关系,实现了卫星、无人机、地面、水上平台的动态、协同组网.在丹江口库区开展了突发性水污染事件动态组网立体监测实验分析,根据水污染事件发生时、动态演变过程中和事件后期3个阶段的不同观测需求,基于多传感器立体协同监测模型,深入开展了多传感器协同优化求解,确定了相应的观测平台及传感器.实验结果表明,协同、高效的"天空地一体化"立体感知网能够全面、精准、快速获取水污染事件监测信息,可以科学支撑突发性水污染事件的应急处置.

This paper addresses the need for emergency monitoring and intelligent simulation in response to sudden water pollution events.We established the correlations of sensor performance with time,space,and attributes and constructed a multi-sensor synergetic monitoring model to accomplish the dynamic and collaborative sensing through a network of satellite,UAV(Unmanned Aerial Vehicle),ground and water platforms.We selected Danjiangkou Res-ervoir as a demonstration area for dynamic network monitoring of sudden water pollution events.Based on the specif-ic observation requirements during the occurrence,dynamic evolution,and later stages of water pollution events,we determined the corresponding platforms and sensors required.Experimental results manifest that the proposed multi-sensor network captures the water pollution monitoring information comprehensively,accurately,and rapidly.Moreo-ver,it provides scientific support for emergency response and treatment of sudden water pollution events.

申邵洪;姜莹;陈希炽;向大享;陈喆;文雄飞

长江科学院科研计划处,武汉 430010||长江科学院武汉市智慧流域工程技术研究中心,武汉 430010长江科学院武汉市智慧流域工程技术研究中心,武汉 430010||长江科学院空间信息技术应用研究所,武汉 430010

计算机与自动化

突发性水污染事件动态组网立体监测多传感器

sudden water pollution eventdynamic networkstereoscopic monitoringmultiple sensors

《长江科学院院报》 2024 (003)

160-165 / 6

国家重点研发专项(2021YFC3000205-05);青海省科技厅项目(2020-SF-151);武汉市重点研发计划项目(2023010402010586);中央级公益性科研院所基本科研业务费项目(CKSF2021485,CKSF2021743,CKSF2019411)

10.11988/ckyyb.20221399

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