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    Automatic monitoring and analysis method for karst landform high slope protection construction

    New search for: YI CHAO
    New search for: YUAN YIHUA
    New search for: SONG JUANJUAN
    New search for: AN WEN
    New search for: ZOU MING
    New search for: GUO WEIXIN
    New search for: TAN LI
    New search for: WANG JUNFU
    New search for: YU GAOWEI
    New search for: GUO TENGTENG
    New search for: SUN HAOMING
    New search for: HOU DAIGANG
    New search for: LIU DONGFENG
    New search for: YUAN CHUXIONG
    New search for: WEI JIA

    The invention discloses an automatic monitoring and analysis method for karst landform high slope protection construction, which comprises the following steps of: carrying, putting and deploying GNSS (Global Navigation Satellite System) monitoring equipment by using an unmanned aerial vehicle to replace traditional manual operation, so that the construction safety and the construction efficiency can be remarkably improved, the manual operation difficulty is reduced, and meanwhile, the construction efficiency is improved; high-precision positioning is realized by combining flying and shooting technologies of an unmanned aerial vehicle with GNSS monitoring equipment, three-dimensional topographic data of a side slope can be quickly and accurately obtained, a three-dimensional model of the side slope is established, and then key topographic monitoring data of the side slope after construction is predicted by generating a three-dimensional finite element model and combining a side slope protection construction scheme. Whether safety risks are caused in the construction process or not is judged in advance, in the construction process, monitoring data are continuously obtained in real time through a monitoring system and compared with prediction data output by a current slope construction theoretical model, a construction scheme is adjusted, prediction is conducted again, and the construction efficiency is improved. Therefore, the prediction of the landform data state of the slope after construction is more accurate and reliable.

    本发明公开了一种喀斯特地貌高边坡防护施工自动监测分析方法,首先利用无人机携带并投放部署GNSS监测设备,替代传统人工作业,可显著提高施工安全性和施工效率,降低人工作业难度,同时,依靠无人机的飞行及拍摄技术结合GNSS监测设备实现高精度定位,能快速准确的获得边坡的三维地形数据,建立边坡的三维模型,然后通过生成三维有限元模型结合边坡防护施工方案对边坡在施工后的关键地形监测数据进行预测,提前判断施工过程是否会导致安全风险,并且在施工过程中,不断通过监测系统实时获取监测数据与当前的边坡施工理论模型所输出的预测数据进行对比,调整施工方案,重新进行预测,使对施工完成后边坡地形数据状态的预测更准确可靠。

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    Automatic monitoring and analysis method for karst landform high slope protection construction

    New search for: YI CHAO
    New search for: YUAN YIHUA
    New search for: SONG JUANJUAN
    New search for: AN WEN
    New search for: ZOU MING
    New search for: GUO WEIXIN
    New search for: TAN LI
    New search for: WANG JUNFU
    New search for: YU GAOWEI
    New search for: GUO TENGTENG
    New search for: SUN HAOMING
    New search for: HOU DAIGANG
    New search for: LIU DONGFENG
    New search for: YUAN CHUXIONG
    New search for: WEI JIA

    The invention discloses an automatic monitoring and analysis method for karst landform high slope protection construction, which comprises the following steps of: carrying, putting and deploying GNSS (Global Navigation Satellite System) monitoring equipment by using an unmanned aerial vehicle to replace traditional manual operation, so that the construction safety and the construction efficiency can be remarkably improved, the manual operation difficulty is reduced, and meanwhile, the construction efficiency is improved; high-precision positioning is realized by combining flying and shooting technologies of an unmanned aerial vehicle with GNSS monitoring equipment, three-dimensional topographic data of a side slope can be quickly and accurately obtained, a three-dimensional model of the side slope is established, and then key topographic monitoring data of the side slope after construction is predicted by generating a three-dimensional finite element model and combining a side slope protection construction scheme. Whether safety risks are caused in the construction process or not is judged in advance, in the construction process, monitoring data are continuously obtained in real time through a monitoring system and compared with prediction data output by a current slope construction theoretical model, a construction scheme is adjusted, prediction is conducted again, and the construction efficiency is improved. Therefore, the prediction of the landform data state of the slope after construction is more accurate and reliable.

    本发明公开了一种喀斯特地貌高边坡防护施工自动监测分析方法,首先利用无人机携带并投放部署GNSS监测设备,替代传统人工作业,可显著提高施工安全性和施工效率,降低人工作业难度,同时,依靠无人机的飞行及拍摄技术结合GNSS监测设备实现高精度定位,能快速准确的获得边坡的三维地形数据,建立边坡的三维模型,然后通过生成三维有限元模型结合边坡防护施工方案对边坡在施工后的关键地形监测数据进行预测,提前判断施工过程是否会导致安全风险,并且在施工过程中,不断通过监测系统实时获取监测数据与当前的边坡施工理论模型所输出的预测数据进行对比,调整施工方案,重新进行预测,使对施工完成后边坡地形数据状态的预测更准确可靠。

    Access

    Download

    Automatic monitoring and analysis method for karst landform high slope protection construction

    New search for: YI CHAO
    New search for: YUAN YIHUA
    New search for: SONG JUANJUAN
    New search for: AN WEN
    New search for: ZOU MING
    New search for: GUO WEIXIN
    New search for: TAN LI
    New search for: WANG JUNFU
    New search for: YU GAOWEI
    New search for: GUO TENGTENG
    New search for: SUN HAOMING
    New search for: HOU DAIGANG
    New search for: LIU DONGFENG
    New search for: YUAN CHUXIONG
    New search for: WEI JIA

    The invention discloses an automatic monitoring and analysis method for karst landform high slope protection construction, which comprises the following steps of: carrying, putting and deploying GNSS (Global Navigation Satellite System) monitoring equipment by using an unmanned aerial vehicle to replace traditional manual operation, so that the construction safety and the construction efficiency can be remarkably improved, the manual operation difficulty is reduced, and meanwhile, the construction efficiency is improved; high-precision positioning is realized by combining flying and shooting technologies of an unmanned aerial vehicle with GNSS monitoring equipment, three-dimensional topographic data of a side slope can be quickly and accurately obtained, a three-dimensional model of the side slope is established, and then key topographic monitoring data of the side slope after construction is predicted by generating a three-dimensional finite element model and combining a side slope protection construction scheme. Whether safety risks are caused in the construction process or not is judged in advance, in the construction process, monitoring data are continuously obtained in real time through a monitoring system and compared with prediction data output by a current slope construction theoretical model, a construction scheme is adjusted, prediction is conducted again, and the construction efficiency is improved. Therefore, the prediction of the landform data state of the slope after construction is more accurate and reliable.

    本发明公开了一种喀斯特地貌高边坡防护施工自动监测分析方法,首先利用无人机携带并投放部署GNSS监测设备,替代传统人工作业,可显著提高施工安全性和施工效率,降低人工作业难度,同时,依靠无人机的飞行及拍摄技术结合GNSS监测设备实现高精度定位,能快速准确的获得边坡的三维地形数据,建立边坡的三维模型,然后通过生成三维有限元模型结合边坡防护施工方案对边坡在施工后的关键地形监测数据进行预测,提前判断施工过程是否会导致安全风险,并且在施工过程中,不断通过监测系统实时获取监测数据与当前的边坡施工理论模型所输出的预测数据进行对比,调整施工方案,重新进行预测,使对施工完成后边坡地形数据状态的预测更准确可靠。

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    Title:

    Automatic monitoring and analysis method for karst landform high slope protection construction

    Additional title:

    一种喀斯特地貌高边坡防护施工自动监测分析方法

    Contributors:

    YI CHAO (author) / YUAN YIHUA (author) / SONG JUANJUAN (author) / AN WEN (author) / ZOU MING (author) / GUO WEIXIN (author) / TAN LI (author) / WANG JUNFU (author) / YU GAOWEI (author) / GUO TENGTENG (author)

    Publication date:

    2024-04-19

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Chinese

    Classification:

    IPC:  G06F ELECTRIC DIGITAL DATA PROCESSING , Elektrische digitale Datenverarbeitung / E02D FOUNDATIONS , Gründungen / G01B MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS , Messen der Länge, der Dicke oder ähnlicher linearer Abmessungen / G01C Messen von Entfernungen, Höhen, Neigungen oder Richtungen , MEASURING DISTANCES, LEVELS OR BEARINGS / G01D MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE , Anzeigen oder Aufzeichnen in Verbindung mit Messen allgemein / G01S RADIO DIRECTION-FINDING , Funkpeilung

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