基于Java 3D的地球空间环境可视化研究
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摘要
根据空间科学研究对交互性和Web化的发展需求,将Java 3D应用于该领域。深入剖析了Java 3D的主要几何类和实现细节;改进并实现了一种矩形网格等值线生成算法,解决了二义性和等值点在网格顶点的问题;介绍了一种生成规则网格的简单算法,并选用合适的Java 3D类加以实现;介绍了一种数值———颜色映射算法,并将空间环境数据映射为RGB颜色信息。综合运用这些算法,对地球空间环境中若干物理要素模型进行了二维和三维可视化。可视化结果与国内外空间环境模型研究成果基本一致,说明上述算法正确,有较高的参考价值。
According to space science research's development and requirement on interaction and Web,this paper applied Java 3D to this field.It dived into several common Java 3D geometry classes and details.It improved and implemented one rectangular net isoline tracing algorithm,solved the ambiguity problem and the case when isoline points appeared at grid vertexes.It introduced one simple method to generate regular net and implemented it with proper Java 3D class.It introduced one algorithm to map numeric value to color and mapped space environment data into RGB information.It also visualized some geospace environment physical elements models both in two-dimension and three-dimension based on these algorithms.Results are in line with those research achievements both at home and abroad.This verifies these algorithms' correctness and high refe-rence value.
According to space science research's development and requirement on interaction and Web,this paper applied Java 3D to this field.It dived into several common Java 3D geometry classes and details.It improved and implemented one rectangular net isoline tracing algorithm,solved the ambiguity problem and the case when isoline points appeared at grid vertexes.It introduced one simple method to generate regular net and implemented it with proper Java 3D class.It introduced one algorithm to map numeric value to color and mapped space environment data into RGB information.It also visualized some geospace environment physical elements models both in two-dimension and three-dimension based on these algorithms.Results are in line with those research achievements both at home and abroad.This verifies these algorithms' correctness and high refe-rence value.
引文
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[2]张平,杨时杰,梁斌.基于Java3D的空间机器人运动仿真系统[J].计算机应用研究,2007,24(9):19-21.
[3]白春华,徐文耀,康国发.地球主磁场模型[J].地球物理学进展,2008,23(4):1045-1057.
[4]徐文耀.地球电磁现象物理学[M].合肥:中国科学技术大学出版社,2009:87-141.
[5]王丹,彭丰林,马麦宁,等.IGRF国际地磁参考场模型可视化研究[J].地震地磁观测与研究,2009,30(4):7-11.
[6]李大林,李秀冰,李玉英,等.地球空间环境要素可视化技术研究[J].计算机与数字工程,2008,36(8):31-34.
[7]SUN Microsystems.Java 3D API turorial[EB/OL].(2000-09)[2012-03].http://java.sun.com/developer/onlineTraining/java3d/index.html.
[8]孙桂茹,马亮,路登平,等.等值线生成与图形填充算法[J].天津大学学报,2000,33(6):816-818.
[9]蒋瑜,杜斌,卢军,等.基于Delaunay三角网的等值线绘制算法[J].计算机应用研究,2010,27(1):101-103.
[10]于嘉,吴旭.一种改进的矩形网格等值线追踪算法[J].河南师范大学学报:自然科学版,2008,36(6):34-36.
[11]李楠,肖克炎,陈学工,等.基于格网数据自动生成等值线程序的设计与开发[C]//2009年全国数学地球科学与地学信息学术会议.2009:413-419.
[12]刘永奎,范柏乃.基于构型表的等值线绘制算法及程序实现[J].南京大学学报:自然科学版,2008,44(4):371-378.
[13]HEARN D,BAKER M P.计算机图形学[M].蔡士杰,宋继强,蔡敏,译.3版.北京:电子工业出版社,2010:531-534.
[14]International Association of Geomagnetism and Aeronomy(IAGA),Working Group V-MOD.International geomegnatic reference field[CP/OL].(2010-01)[2010-11].http://www.ngdc.noaa.gov/IA-GA/vmod/igrf.html.
[15]邹鸿,陈鸿飞,邹积清,等.星内粒子探测器观测结果与辐射带模型的比较[J].地球物理学报,2007,50(3):678-683.
[16]VETTE J I.The AE-8 trapped electron model environment,NSSDC/WDC-A-R&S Report 91-24[R].[S.l.]:NASA-GSFC,1991.
[17]SAWYER D M,VETTE J I.AP8 trapped proton environment for solarmaximum and solar minimum,NSSDC WDC-A-R&S 76-06[R].[S.l.]:NASA-GSFC,1976.
[18]BILITZA D.AE-8/AP-8 RADBELT[CP/OL].[2010-11].http://ccmc.gsfc.nasa.gov/models/modelinfo.php?model=AE-8/AP-8RADBELT.
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