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作 者:王莹 Wang Ying(Meizhou Urban Planning and Design Institute Co.,Ltd.,Meizhou 514000,China)
机构地区:[1]梅州市城市规划设计院有限公司,梅州514000
出 处:《绿色建造与智能建筑》2025年第2期78-81,共4页Green Construction and Intelligent Building
摘 要:当前高层建筑工程地质勘察模型一般为阶段应用模式,勘察的效率较低,导致最终得出的勘测厚度差变大,为此提出对遥感技术在高层建筑工程地质勘察中的应用研究。先进行遥感检测点边缘覆盖部署与图像采集,完成对矢量图像数据格式转换及勘测位置模糊标定,结合遥感技术,提升勘察效率的同时,构建遥感建筑工程地质勘察三维模型,采用动态化持续探测的方式来实现勘察分析。测试结果表明:对比于传统钻探建筑工程地质勘察方法、传统地质填图建筑工程地质勘察方法,此次所设计的遥感高层建筑工程地质勘察方法最终得出的含水层勘测厚度差较小,这说明此次设计的地质勘测方法更为高效,在遥感技术的辅助下,勘测的针对性更强。The current geological survey model for high-rise building engineering is generally a stage application mode,which has low survey efficiency and leads to a larger difference in the final survey thickness.Therefore,research on the application of remote sensing technology in high-rise building engineering geological survey is proposed.Firstly,remote sensing detection point edge coverage deployment and image acquisition are carried out to complete the conversion of vector image data format and fuzzy calibration of survey positions.Combined with remote sensing technology,while improving survey efficiency,a three-dimensional model of remote sensing construction engineering geological survey is constructed,and dynamic continuous exploration is adopted to achieve survey analysis.The test results show that compared with traditional drilling and geological mapping methods,the remote sensing high-rise building engineering geological survey method designed this time has a smaller difference in the thickness of the aquifer survey,indicating that the geological survey method designed this time is more efficient.With the assistance of remote sensing technology,the survey is more targeted.
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