| 基于实时地质灾害监测数据的预警预报动态阈值分析方法 |
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| 引用本文: | 薛廉, 唐侨, 郑杰, 陆毅之. 基于实时地质灾害监测数据的预警预报动态阈值分析方法[J]. 中国地质灾害与防治学报, 2023, 34(4): 11-21. doi: 10.16031/j.cnki.issn.1003-8035.202206009 |
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| 作者姓名: | 薛廉 唐侨 郑杰 陆毅之 |
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| 作者单位: | 1.中国地质调查局成都地质调查中心(西南地质科技创新中心),四川 成都 610218;; 2.四川省地质工程勘察院集团有限公司,四川 成都 610072 |
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| 基金项目: | 中国地质调查局地质调查项目“成渝双城经济圈资源环境承载能力监测评价”(DD20221733); |
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| 摘 要: | 目前在地质灾害监测领域,监测预警信息的发布主要基于各类监测设备的阈值设定。阈值是根据经验或专家估计设定,不仅对地质灾害不同类型、不同环境缺乏针对性,而且设定后较长时间不变,或根据经验略微浮动,缺少数据样本分析的科学性。另外监测设备容易受到卫星信号等环境因素影响,因此在实际运行中可能会出现误报、漏报的情况。为了解决上述问题,文中提出了一种预警阈值自学习自修正从而进行动态调整的方法,引入了两种可变阈值,并提出了一种基于优先级和门以及半马尔可夫过程 VTAS的性能指标优化新方法。半马尔可夫过程的应用使该方法能够考虑具有非高斯分布的工业测量。此外,文中还提出了一种基于遗传算法的优化设计过程,用于优化参数设置,提高性能指标。通过数值仿真以及与以往研究的比较,说明了该方法的有效性。将该方法在实测点位上进行应用,根据结果可知,相比于使用固定阈值,该方法能有效地减少系统误报、漏报,提高地质灾害预警的准确性,从而更好地保护人民生命财产安全。
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| 关 键 词: | 地质灾害 预警预报 动态阈值 自学习自修正 |
| 收稿时间: | 2022-06-15 |
| 修稿时间: | 2022-07-15 |
Dynamic threshold analysis method of early warning and forecast based on real-time geo-hazards monitoring data |
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| XUE Lian, TANG Qiao, ZHENG Jie, LU Yizhi. Dynamic threshold analysis method of early warning and forecast based on real-time geo-hazards monitoring data[J]. The Chinese Journal of Geological Hazard and Control, 2023, 34(4): 11-21. doi: 10.16031/j.cnki.issn.1003-8035.202206009 |
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| Authors: | XUE Lian TANG Qiao ZHENG Jie LU Yizhi |
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| Affiliation: | 1.Chengdu Center, China Geological Survey (Geosciences Innovation Center of Southwest China), Chengdu, Sichuan 610218, China;; 2.Sichuan Institute of Geological Engineering Investigation Group Co. Ltd., Chengdu,Sichuan 610072, China |
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| Abstract: | Currently, in the field of geological disaster monitoring, monitoring and early warning information is mainly released based on the threshold setting of various types of monitoring equipment. However, since the thresholds are established according to empirical values or expert evaluations, there is a lack of pertinence to different types of geological disasters and different environments. Once set, these thresholds remain unchanged for a long time, and even when adjusted, they only slightly float based on experience, lacking scientific data sample analysis. Additionally, monitoring equipment is susceptible to satellite signals and environmental factors, leading to false alarms and false negatives during operation. To address these issues, a method of dynamic adjustment of self-learning and self-correction early warning thresholds is proposed. This method introduces two variable thresholds and a new performance index optimization method for VTAS based on priority and gate and semi-Markov processes. The application of the semi-Markov process allows the method to consider industrial measurements with non-Gaussian distributions. Moreover, an optimization design process based on genetic algorithms is proposed to improve performance indicators by optimizing parameter settings. Three numerical examples are used to illustrate the effectiveness of this approach and compare it with previous studies. When applied at the measured point, the method effectively reduce false alarms and under-alarms compared to the use of fixed thresholds, improving the accuracy of geological disaster early warning and better protecting the safety of people's lives and property. |
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| Keywords: | geological hazards early warning and forecasting dynamic threshold self-learning and self-correction |
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