虚拟海洋环境视景仿真技术研究
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摘要
随着武器装备的现代化,战斗人员的训练已经成为国防现代化的重要内容。虚拟现实技术的出现解决了军事训练领域的一系列难题,使安全、高效的军事训练成为可能。研究海洋环境的仿真,为操作训练或作战演练提供海洋环境方面的支持,正在成为人们关注的热点。论文的主要工作如下:
首先,分析了海洋环境的组成,研究了有关视景仿真的海洋环境信息的收集与管理。
其次,对基本的建模和仿真技术进行了研究,利用Creator建模软件完成虚拟海洋环境中各实体模型和三维地形模型的建模。并在Vega的图形界面接口LynX中实现了基本的海洋环境效果。
再次,研究了动态调整海洋环境效果的技术,结合收集到的真实海洋环境信息进行虚拟海洋环境效果的动态调整,使虚拟海洋环境能随使用的目的动态调整,增加了虚拟海洋环境的使用灵活性。
最后,从使用虚拟海洋环境的角度出发,介绍了基于HLA的分布式仿真技术,研究了虚拟海洋环境参与仿真运行的方式和在仿真运行中的地位。
论文主要研究根据真实海洋环境信息动态调整虚拟海洋环境效果的技术,以模拟出用户所要求的、高度真实的海洋环境,提高模拟训练或作战演练的参考价值。在海洋虚拟战场等有关系统中,能够得到推广和应用。
Along with the modernization of weapons and equipments, the training of combatants has already become an important part of national defend modernization. The advent of Virtual Reality technology solves a series of difficulties in drilling field and makes safe efficient military training possible. How to build a simulated ocean environment and support applications for operational training or campaign drilling with it is gradually becoming a study field that people concern. The contents and results of research in this paper are shown as the following:
First, components of ocean environment are analyzed; the collection and management of ocean environment information are studied.
Second, the basic techniques of modeling and simulation are studied, the modeling of all entities and 3D terrain in virtual ocean environment are accomplished with the help of Creator. Basic ocean environmental effects are realized in Vega's graphics interface LynX.
Third, the techniques to adjust ocean environmental effects dynamically are studied. Ocean environment effects are adjustable according to the real ocean environment information with the help of these techniques. This makes virtual ocean environment more flexible to use.
The last, Distributed Interactive Simulation technique based on HLA frame is introduced. The mode in which the virtual ocean environment participates in simulant applications and the virtual ocean environment's status in simulant applications are studied.
In order to simulate the user-defined and high reality ocean environment and improve the reference value of operational training or campaign drilling, this paper focuses its interest on the adjustments of ocean environment effects. Meet the need of ocean environment simulation for reality and real-time, it is possible to be extended and applied in some system that contains virtual ocean war field.
2
首先,分析了海洋环境的组成,研究了有关视景仿真的海洋环境信息的收集与管理。
其次,对基本的建模和仿真技术进行了研究,利用Creator建模软件完成虚拟海洋环境中各实体模型和三维地形模型的建模。并在Vega的图形界面接口LynX中实现了基本的海洋环境效果。
再次,研究了动态调整海洋环境效果的技术,结合收集到的真实海洋环境信息进行虚拟海洋环境效果的动态调整,使虚拟海洋环境能随使用的目的动态调整,增加了虚拟海洋环境的使用灵活性。
最后,从使用虚拟海洋环境的角度出发,介绍了基于HLA的分布式仿真技术,研究了虚拟海洋环境参与仿真运行的方式和在仿真运行中的地位。
论文主要研究根据真实海洋环境信息动态调整虚拟海洋环境效果的技术,以模拟出用户所要求的、高度真实的海洋环境,提高模拟训练或作战演练的参考价值。在海洋虚拟战场等有关系统中,能够得到推广和应用。
Along with the modernization of weapons and equipments, the training of combatants has already become an important part of national defend modernization. The advent of Virtual Reality technology solves a series of difficulties in drilling field and makes safe efficient military training possible. How to build a simulated ocean environment and support applications for operational training or campaign drilling with it is gradually becoming a study field that people concern. The contents and results of research in this paper are shown as the following:
First, components of ocean environment are analyzed; the collection and management of ocean environment information are studied.
Second, the basic techniques of modeling and simulation are studied, the modeling of all entities and 3D terrain in virtual ocean environment are accomplished with the help of Creator. Basic ocean environmental effects are realized in Vega's graphics interface LynX.
Third, the techniques to adjust ocean environmental effects dynamically are studied. Ocean environment effects are adjustable according to the real ocean environment information with the help of these techniques. This makes virtual ocean environment more flexible to use.
The last, Distributed Interactive Simulation technique based on HLA frame is introduced. The mode in which the virtual ocean environment participates in simulant applications and the virtual ocean environment's status in simulant applications are studied.
In order to simulate the user-defined and high reality ocean environment and improve the reference value of operational training or campaign drilling, this paper focuses its interest on the adjustments of ocean environment effects. Meet the need of ocean environment simulation for reality and real-time, it is possible to be extended and applied in some system that contains virtual ocean war field.
2
引文
[1] 黄文骞.利用虚拟现实技术再现海洋自然地理环境[J].测绘工程, 1999(12):6-11页
[2] Stephen R. Ellis. What Are Virtual Environments?. IEEE Computer Graphics and Application, No. 1, Jan, 1994, America, 17-22P
[3] 曾芬芳.虚拟现实技术.上海交通大学出版社,1997
[4] 韦有双,王飞,冯允成.虚拟现实与系统仿真.计算机仿真,1994, 16(2):63-66页
[5] 黄铁军.虚拟现实理论、语言和应用的若干问题研究.华中理工大学博士学位论文,1998
[6] 马小虎.虚拟现实中多细节层次模型的研究.浙江大学博士学位论文, 1997
[7] 潘晓辉,虚拟战场环境中武器平台实体的地形跟踪匹配技术研究与实现.国防科学技术大学硕士学位论文,2002
[8] 汪成为,高文,王行仁.灵境(虚拟现实)技术的理论、实现及应用.清华大学出版社,1996
[9] 汪成为.灵境技术与人机和谐仿真环境,计算机研究与发展.1997, 34(1):1-13页
[10] 赵沁平,DVENET分布式虚拟环境,北京:科学出版社,2002
[11] Zhao Lin, Sun Feng, Liu Ying. The Design of A Submarine Voyage Training Simulator. Proceedings of the IEEE International Conference on Systems, Man and Cybernetics 4 1998. IEEE, Piscataway, NJ, USA, 3720-3724P
[12] 崔汉国,王伟忠,冯雷,周朝晖.虚拟潜望镜视景系统的研制.计算机工程,1999,25(4)
[13] 朱世立.电子海图应用系统设计[M].国防工业出版社,1997:43-57页
[14] 刘承香,赵玉新,刘繁明.基于Delaunay三角形的三维数字地图生成算法.计算机仿真,2003,20(5):22-24页
[15] MultiGen-Paradigm Inc. MultiGen Creator User's Guide(Version 2.4.1).[Z]. U. S. A: MultiGen-Paradigm Inc. 2001
[16] MultiGen-Paradiem,Inc. MultiGen Creator Premier Tools for Realtime 3D??Authoring-Desktop Tutor. 2000
[17] MutiGen-Pradigm,Inc. Creating Models for Simulations,Vertion 2.4,For windows and IRIX. August 2000
[18] 徐东平.实时动态交互视景仿真.武汉理工大学博士学位论文.2001:197-201页
[19] OpenFlight Specification. Version 15.6.0. U.S.A: MultiGen-Paradigm. Inc. 1998
[20] 李瑞,张锡恩,李萍等.基于MultiGen CreatorPro建立的虚拟环境中的几何模型.计算机工程,Vol.28,No.8,2002.8
[21] 李青,扬威等.虚拟现实技术及矿井工业广场的可控可视化研究计算机仿真,Vol.19,No.2,2002.3
[22] Open Flight Scene Description Database Specification,[Version 15.7.0], April 2000
[23] 路辉.三维电子海图应用技术研究.哈尔滨工程大学博士学位论文.2003:22-23页
[24] 齐丽君,张伟,范贤德.PC机上生成真实最优地表数据文件水*.flt的方法.2000年中国系统仿真学会学术年会论文集(上),2001.8
[25] 关克平,王胜正等.一种新的生成航海模拟器视景地形数据库文件的方法.上海海运学院学报,2003
[26] 朱雨香.视景仿真技术的研究与实现.南京理工大学硕士学位论文.2004:33-36页
[27] 李丽荣,沈春林,陆宇平等.在SGI图形工作站上实现低空突防三维视景及跨平台实时仿真[J].南京航空航天大学学报,2002(4):168-172页
[28] MultiGen-Paradigm Inc. Lynx User's Guide(Version 3.7.1).[Z]. U.S. A: MultiGen-Paradigm Inc. 2001
[29] 龚卓蓉.可选模块的使用与开发.国防工业出版社,2003(4):169-242页
[30] 丁芳颐.分布交互式三维潜艇航行训练仿真系统的研究.哈尔滨工程大学硕士学位论文.2004:61-62页
[31] 淮永建,郝重阳.基于LOD实时图形绘制和加速技术.中国图象图形学报,Vol.7(A),No.1,Jan.2002
[32] Cohen J, Wright W. Simplification envelopes[A]. In: Proceedings of SIGGRAPH'96[C], Held in New Orleans, Louisiana, August 1996: 119-128P
[33] Eck M, DeRose T, Duchamp T et al. Multiresolution analysis of arbitrary??meshes. In: Proceedings of SIGGRAPH'95[C], Held in LosAngles,California, August 1995: 173-180P
[34] 彭仪普,刘文熙.一种动态交互的多分辨率地形生成.计算机工程, Vol.29,No.11,July.2003:32-33页
[35] Gueziec A.Surface simplification inside a tolerance volume[R]. Technical Report RC 20440, IBM Research Division, T. J. Watson Research Center.
[36] Rossignac J, Borrel P. Multi-resolution 3D approximations for rendering complex scenes[J]. Geometric Modeling in Computer Granhics, 1993, 5(2): 455-465P
[37] Soucy M, Laurendeau D. Multiresolution surface modeling based on hierarchical triangulation[J]. Computer Vision and Image Understanding, 1996, 63(1): 1-14P
[38] Lindstrom P, Turk G. Fast and memory efficient polygonal simplification[A]. In: Proceedings of IEEE Visualization'98 Conference[C], Held in Research Triangle Park, North Carolina, October 1998: 279-286P
[39] 孙家广等编著.计算机图形学.清华大学出版社,1999.6
[40] 杨银拴.虚拟海洋环境中自动建模技术研究.哈尔滨工程大学硕士学位论文.2004:55-57页
[41] 褚彦军,康凤举,高立娥,宋志明.视景仿真的三维模型库管理系统的研究与开发.计算机仿真,Vol21,No5,2004.5:174-176页
[42] 杜岩、张晓宇、李文秀.虚拟现实场景中海浪形态的计算机模拟.哈尔滨工程大学学报,Vo22,No.3,Jun.2001
[43] 褚彦军,康凤举,聂卫东、杨惠珍.海面场景虚拟仿真方法.计算机应用.Vo24.Dec.2004
[44] TESSENDORF J. Simulating Ocean Water[Z]. SIGGRA PH CourseNotes, 2001.
[45] 严承华.分形仿真技术在海上视景图形显示中的应有[J].计算机工程, 1994,20(1):36-40页.
[46] 梁永恩.基于HLA的分布式虚拟海洋战场环境研究.哈尔滨工程大学硕士学位论文.2004:27-29页
[47] Defense Modeling and Simulation Office, DoD High Level Architecture Rules. Version 1.0.15 August, 1996: 3-8P
[48] 周彦,戴剑伟主编.HLA仿真程序设计.北京:电子工业出版社,2002:6-70??页
[49] Defense Modeling and Simulation Office, Department of Defense High Level Architecture Object Model Template Version 1.1. 12 February, 1997: 25-42P
[50] HLA Time Management Design Document, Version 1.0, 15 August 1995
[51] 张亚崇,孙国基等.基于HLA/RTI的分布式交互仿真中数据分发管理的研究.系统仿真学报.2004,16(6):1284-1287页
[52] 史扬,凌云翔等.数据分发管理机制中组播地址分配策略.系统仿真学报.2001,12(3):405-414页
[53] 史扬,凌云翔等.基于路径空间层次划分的区域匹配算法.20001,12(5):758-767页
[2] Stephen R. Ellis. What Are Virtual Environments?. IEEE Computer Graphics and Application, No. 1, Jan, 1994, America, 17-22P
[3] 曾芬芳.虚拟现实技术.上海交通大学出版社,1997
[4] 韦有双,王飞,冯允成.虚拟现实与系统仿真.计算机仿真,1994, 16(2):63-66页
[5] 黄铁军.虚拟现实理论、语言和应用的若干问题研究.华中理工大学博士学位论文,1998
[6] 马小虎.虚拟现实中多细节层次模型的研究.浙江大学博士学位论文, 1997
[7] 潘晓辉,虚拟战场环境中武器平台实体的地形跟踪匹配技术研究与实现.国防科学技术大学硕士学位论文,2002
[8] 汪成为,高文,王行仁.灵境(虚拟现实)技术的理论、实现及应用.清华大学出版社,1996
[9] 汪成为.灵境技术与人机和谐仿真环境,计算机研究与发展.1997, 34(1):1-13页
[10] 赵沁平,DVENET分布式虚拟环境,北京:科学出版社,2002
[11] Zhao Lin, Sun Feng, Liu Ying. The Design of A Submarine Voyage Training Simulator. Proceedings of the IEEE International Conference on Systems, Man and Cybernetics 4 1998. IEEE, Piscataway, NJ, USA, 3720-3724P
[12] 崔汉国,王伟忠,冯雷,周朝晖.虚拟潜望镜视景系统的研制.计算机工程,1999,25(4)
[13] 朱世立.电子海图应用系统设计[M].国防工业出版社,1997:43-57页
[14] 刘承香,赵玉新,刘繁明.基于Delaunay三角形的三维数字地图生成算法.计算机仿真,2003,20(5):22-24页
[15] MultiGen-Paradigm Inc. MultiGen Creator User's Guide(Version 2.4.1).[Z]. U. S. A: MultiGen-Paradigm Inc. 2001
[16] MultiGen-Paradiem,Inc. MultiGen Creator Premier Tools for Realtime 3D??Authoring-Desktop Tutor. 2000
[17] MutiGen-Pradigm,Inc. Creating Models for Simulations,Vertion 2.4,For windows and IRIX. August 2000
[18] 徐东平.实时动态交互视景仿真.武汉理工大学博士学位论文.2001:197-201页
[19] OpenFlight Specification. Version 15.6.0. U.S.A: MultiGen-Paradigm. Inc. 1998
[20] 李瑞,张锡恩,李萍等.基于MultiGen CreatorPro建立的虚拟环境中的几何模型.计算机工程,Vol.28,No.8,2002.8
[21] 李青,扬威等.虚拟现实技术及矿井工业广场的可控可视化研究计算机仿真,Vol.19,No.2,2002.3
[22] Open Flight Scene Description Database Specification,[Version 15.7.0], April 2000
[23] 路辉.三维电子海图应用技术研究.哈尔滨工程大学博士学位论文.2003:22-23页
[24] 齐丽君,张伟,范贤德.PC机上生成真实最优地表数据文件水*.flt的方法.2000年中国系统仿真学会学术年会论文集(上),2001.8
[25] 关克平,王胜正等.一种新的生成航海模拟器视景地形数据库文件的方法.上海海运学院学报,2003
[26] 朱雨香.视景仿真技术的研究与实现.南京理工大学硕士学位论文.2004:33-36页
[27] 李丽荣,沈春林,陆宇平等.在SGI图形工作站上实现低空突防三维视景及跨平台实时仿真[J].南京航空航天大学学报,2002(4):168-172页
[28] MultiGen-Paradigm Inc. Lynx User's Guide(Version 3.7.1).[Z]. U.S. A: MultiGen-Paradigm Inc. 2001
[29] 龚卓蓉.可选模块的使用与开发.国防工业出版社,2003(4):169-242页
[30] 丁芳颐.分布交互式三维潜艇航行训练仿真系统的研究.哈尔滨工程大学硕士学位论文.2004:61-62页
[31] 淮永建,郝重阳.基于LOD实时图形绘制和加速技术.中国图象图形学报,Vol.7(A),No.1,Jan.2002
[32] Cohen J, Wright W. Simplification envelopes[A]. In: Proceedings of SIGGRAPH'96[C], Held in New Orleans, Louisiana, August 1996: 119-128P
[33] Eck M, DeRose T, Duchamp T et al. Multiresolution analysis of arbitrary??meshes. In: Proceedings of SIGGRAPH'95[C], Held in LosAngles,California, August 1995: 173-180P
[34] 彭仪普,刘文熙.一种动态交互的多分辨率地形生成.计算机工程, Vol.29,No.11,July.2003:32-33页
[35] Gueziec A.Surface simplification inside a tolerance volume[R]. Technical Report RC 20440, IBM Research Division, T. J. Watson Research Center.
[36] Rossignac J, Borrel P. Multi-resolution 3D approximations for rendering complex scenes[J]. Geometric Modeling in Computer Granhics, 1993, 5(2): 455-465P
[37] Soucy M, Laurendeau D. Multiresolution surface modeling based on hierarchical triangulation[J]. Computer Vision and Image Understanding, 1996, 63(1): 1-14P
[38] Lindstrom P, Turk G. Fast and memory efficient polygonal simplification[A]. In: Proceedings of IEEE Visualization'98 Conference[C], Held in Research Triangle Park, North Carolina, October 1998: 279-286P
[39] 孙家广等编著.计算机图形学.清华大学出版社,1999.6
[40] 杨银拴.虚拟海洋环境中自动建模技术研究.哈尔滨工程大学硕士学位论文.2004:55-57页
[41] 褚彦军,康凤举,高立娥,宋志明.视景仿真的三维模型库管理系统的研究与开发.计算机仿真,Vol21,No5,2004.5:174-176页
[42] 杜岩、张晓宇、李文秀.虚拟现实场景中海浪形态的计算机模拟.哈尔滨工程大学学报,Vo22,No.3,Jun.2001
[43] 褚彦军,康凤举,聂卫东、杨惠珍.海面场景虚拟仿真方法.计算机应用.Vo24.Dec.2004
[44] TESSENDORF J. Simulating Ocean Water[Z]. SIGGRA PH CourseNotes, 2001.
[45] 严承华.分形仿真技术在海上视景图形显示中的应有[J].计算机工程, 1994,20(1):36-40页.
[46] 梁永恩.基于HLA的分布式虚拟海洋战场环境研究.哈尔滨工程大学硕士学位论文.2004:27-29页
[47] Defense Modeling and Simulation Office, DoD High Level Architecture Rules. Version 1.0.15 August, 1996: 3-8P
[48] 周彦,戴剑伟主编.HLA仿真程序设计.北京:电子工业出版社,2002:6-70??页
[49] Defense Modeling and Simulation Office, Department of Defense High Level Architecture Object Model Template Version 1.1. 12 February, 1997: 25-42P
[50] HLA Time Management Design Document, Version 1.0, 15 August 1995
[51] 张亚崇,孙国基等.基于HLA/RTI的分布式交互仿真中数据分发管理的研究.系统仿真学报.2004,16(6):1284-1287页
[52] 史扬,凌云翔等.数据分发管理机制中组播地址分配策略.系统仿真学报.2001,12(3):405-414页
[53] 史扬,凌云翔等.基于路径空间层次划分的区域匹配算法.20001,12(5):758-767页