基于WebGL的风廓线雷达风场三维可视化技术与实现
|
摘要
风廓线雷达二维显示系统无法显示三维风场,针对此问题,本文研究了基于WebGL的风廓线雷达风场的三维可视化方法。文中介绍了基于WebGL的三维图形渲染技术的原理和优势,详细阐述了风廓线雷达风场的三维建模和渲染方法,在此方法的基础上,开发了B/S模式的风廓线雷达风场三维可视化系统,并介绍了系统的功能特点和优势。相对于风廓线雷达二维显示系统,三维可视化系统以更直观、逼真的形式展现了风场的空间分布,用户能够以任意视角观察三维风场,便于气象工作者分析风场辐合(辐散)、边界层辐合线,为强对流天气监测预报工作提供一种有效的技术手段。
Aiming at this problem that the 2 Ddisplay systems of wind profiler radar cannot display 3 Dwind fields,the 3 Dvisualization method of of wind fields from the wind profiler radar based on WebGL is studied in this paper.The principles and advantages of 3 D graphics rendering based on WebGL are introduced,and the 3 D modeling and rendering method of wind fields from wind profiler radar are described in detail.On the basis of this method,a 3 Dvisualization system for the wind fields from wind profiler radar based on the B/S mode is developed,and the functional characteristics and advantages of the system are introduced.Compared with the 2 Ddisplay system,the 3 Dvisualization system presents the spatial distribution of the wind fields in a more intuitive and realistic form,and users can observe the 3 D wind fields from any angle of view,which is convenient for meteorologists to analyze wind convergence(divergence)and boundary layer convergence lines,and provides an effective technical means for monitoring and forecasting severe convective weather.
Aiming at this problem that the 2 Ddisplay systems of wind profiler radar cannot display 3 Dwind fields,the 3 Dvisualization method of of wind fields from the wind profiler radar based on WebGL is studied in this paper.The principles and advantages of 3 D graphics rendering based on WebGL are introduced,and the 3 D modeling and rendering method of wind fields from wind profiler radar are described in detail.On the basis of this method,a 3 Dvisualization system for the wind fields from wind profiler radar based on the B/S mode is developed,and the functional characteristics and advantages of the system are introduced.Compared with the 2 Ddisplay system,the 3 Dvisualization system presents the spatial distribution of the wind fields in a more intuitive and realistic form,and users can observe the 3 D wind fields from any angle of view,which is convenient for meteorologists to analyze wind convergence(divergence)and boundary layer convergence lines,and provides an effective technical means for monitoring and forecasting severe convective weather.
引文
[1]毕力格,达布希拉图,苏立娟,等.基于三维GIS的内蒙古人工影响天气电子沙盘系统设计及应用[J].气象科技,2018,46(1):207-213.
[2]朱传林,王学良,范宏飞,等.闪电数据三维可视化统计分析系统设计与实现[J].气象科技,2017,45(1):59-63.
[3]王赟,刘彬,段燕楠,等.利用MATLAB实现CINRAD/CC雷达回波三维显示[J].气象科技,2016,44(2):177-183.
[4]邱拓,刘锦丽,李勋.基于OPENGL的组网雷达三维显示系统的开发与应用[J].气象科技,2015,43(5):833-838.
[5]张志强,刘黎平,王红艳.三维可视化技术在雷达三维组网产品显示中的运用[J].气象科技,2010,38(5):605-608.
[6]龚湜均.基于WebGL的三维符号绘制技术研究[J].测绘与空间地理信息,2015,38(11):50-52.
[7]杨帆,杜凯.基于WebGL的三维虚拟地球系统设计与实现[J].地理信息世界,2016,23(2):113-118.
[8]欧阳峰,龚桂荣,何列松.面向WebGL的矢量数据三维绘制技术[J].测绘科学技术学报,2016,33(6):635-638.
[9]黄若思,李传荣,冯磊,等.基于几何的WebGL矢量数据三维渲染技术研究[J].遥感技术与应用,2014,29(3):463-468.
[10]杜鹏.基于WebGL的三维气象虚拟地球可视化平台构建技术研究[D].天津:天津师范大学,2017.
[11]Feng Lei,Wang Chaoliang,Li Chuanrong,et al.A Research for 3D WebGIS based on WebGL[C]∥International Conference on Computer Science and Network Technology,2011:348-351.
[12]Kim H,Nam S,Park J,et al.Direct canvas:Optimized WebGL rendering model[C]∥2018IEEE International Conference on Consumer Electronics(ICCE),2018:1-3.
[13]宁津生.现代大地测量参考系统[J].测绘通报,2002(6):1-5.
[14]刘山洪,邓彩群.坐标转换与坐标变换研究[J].吉林建筑大学学报,2016,33(1):43-47.
[15]孙旭民.矢量闭合差在空间直角坐标系和站心坐标系下的转换[J].物探装备,2017,27(1):48-49.
[2]朱传林,王学良,范宏飞,等.闪电数据三维可视化统计分析系统设计与实现[J].气象科技,2017,45(1):59-63.
[3]王赟,刘彬,段燕楠,等.利用MATLAB实现CINRAD/CC雷达回波三维显示[J].气象科技,2016,44(2):177-183.
[4]邱拓,刘锦丽,李勋.基于OPENGL的组网雷达三维显示系统的开发与应用[J].气象科技,2015,43(5):833-838.
[5]张志强,刘黎平,王红艳.三维可视化技术在雷达三维组网产品显示中的运用[J].气象科技,2010,38(5):605-608.
[6]龚湜均.基于WebGL的三维符号绘制技术研究[J].测绘与空间地理信息,2015,38(11):50-52.
[7]杨帆,杜凯.基于WebGL的三维虚拟地球系统设计与实现[J].地理信息世界,2016,23(2):113-118.
[8]欧阳峰,龚桂荣,何列松.面向WebGL的矢量数据三维绘制技术[J].测绘科学技术学报,2016,33(6):635-638.
[9]黄若思,李传荣,冯磊,等.基于几何的WebGL矢量数据三维渲染技术研究[J].遥感技术与应用,2014,29(3):463-468.
[10]杜鹏.基于WebGL的三维气象虚拟地球可视化平台构建技术研究[D].天津:天津师范大学,2017.
[11]Feng Lei,Wang Chaoliang,Li Chuanrong,et al.A Research for 3D WebGIS based on WebGL[C]∥International Conference on Computer Science and Network Technology,2011:348-351.
[12]Kim H,Nam S,Park J,et al.Direct canvas:Optimized WebGL rendering model[C]∥2018IEEE International Conference on Consumer Electronics(ICCE),2018:1-3.
[13]宁津生.现代大地测量参考系统[J].测绘通报,2002(6):1-5.
[14]刘山洪,邓彩群.坐标转换与坐标变换研究[J].吉林建筑大学学报,2016,33(1):43-47.
[15]孙旭民.矢量闭合差在空间直角坐标系和站心坐标系下的转换[J].物探装备,2017,27(1):48-49.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |