煤田隐蔽火源多源遥感探测研究

Research on Multi-source Remote Sensing Detection of Concealed Fire Sources in Coalfields

  • 摘要: 地下煤火分布广泛,屡治不止,造成资源浪费、生态破坏。中国是世界上煤火灾害最严重的国家,80%的煤层有自燃倾向。煤田隐蔽火源的快速、全面、及时、精准探测是实现防灭火及生态治理的基础和前提,多源遥感极具应用潜力,但需穿透地表、深入地下,存在诸多瓶颈。将煤田隐蔽火源多源遥感探测问题抽象为同源(同一地下自燃火源)、多象(地表形成的多种异常现象)、多像(多源遥感拍摄的包括多种地表异常信息的影像)关键节点及同源多象-象像映射-源象传递-多像识源研究链条进行分析,在此基础上探讨煤田隐蔽火源多源遥感探测的技术瓶颈,给合中国新疆维吾尔自治区阜康、米泉、宝安等火区隐蔽火源探测实际,给出在极化时序InSAR火区形变探测、时空温度阈值法火区圈定、多源卫星遥感火区联合识别、无人机火区监测试验等方面的研究进展及效果,展望了地下煤火多源天空地井协同感知认知研究的发展方向。

     

    Abstract: Underground coal fire is widely distributed and repeatedly treated, causing waste of resources and ecological damage. China is the country with the most serious coal spontaneous combustion disaster in the world, 80% of coal seams have the tendency to spontaneous combustion. Rapid, comprehensive, timely and accurate detection of hidden fire sources in coalfields is the basis and prerequisite for fire prevention, extinguishing and ecological management. Multi-source remote sensing has a great potential for the applications, but it needs to penetrate the surface and go deep underground, and there are many bottlenecks to be solved. Firstly, the problem of multi-source remote sensing detection of hidden fires in coalfields is abstracted into the key nodes of same source (same underground spontaneous combustion source), multi-phenomenon (various abnormal phenomena formed on the surface), multi-image (photographed by multi-source remote sensing, including a variety of surface image of abnormal information). Meanwhile, the research chain of multiple phenomena is analyzed, which includes the same source, the phenomenon to image mapping, the transmission from source to phenomenon, and the multiple image recognition source. On these basis, the technical bottleneck of multi-source remote sensing detection of concealed fire sources in coalfields is discussed. Secondly, based on the research examples of concealed fire detection in coal fire areas of Fukang, Miquan and Bao'an in the Xinjiang Uygur Autonomous Regions, China, we give the research progress and effects of polarized time-series interferometric synthetic aperture radar (InSAR) fire area deformation detection, spatio-temporal temperature threshold method fire area delineation, multi-source satellite remote sensing fire area identification, and unmanned aerial vehicle fire area monitoring experiment. Finally, the development direction of integrating multi-source satellite remote sensing images and space-sky-ground-mine cooperative perception cognitions is prospected.

     

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