基于图象数据库的动态场景生成系统及其应用
摘要
本文介绍了一种可实现了各类目标,背景下动态场景的计算机编辑和生成的方法。首先将动态场景分为目标、背景、目标运动规律和特殊事件四个部分。然后通过编程由四个模块完成相应功能。在目标、背景编辑模块可对目标、背景图象进行各种处理,并对重要特征量进行计算。在运动路径模块可指定目标的运动规律,包括路线、大小、角度和灰度变化等。在特殊事件模块用户可加入独立与目标的各类典型事件,如各种光电干扰等。最后通过动态场景合成技术由计算机自动生成用户所需的动态场景图象。所需的原始目标、背景图象来源于图象数据库,通过图象数据库管理系统提供的索引项可便捷的找到。对光电干扰的模拟重点针对相干光定向红外干扰(CDIRCM)系统。通过对成像制导导弹工作原理的分析,激光传输中遇到的各种大气效应和红外电荷耦合器件(IRCCD)激光干扰机理的分析,阐明了CDIRCM系统干扰成像制导导弹的机理,并利用动态场景生成系统对CDIRCM干扰进行了仿真。
Computer editing and generating of dynamic scenes of various targets and backgrounds is actualized in this paper. At first four elements composing the scenes are extracted i.e. target background moving pattern and special events. Thus they are programmed into four modules carrying out corresponding tasks. In the target and background modules the images are processed and interest parameters are calculated. In the moving pattern module the way the target moving is specified. In the events module some typical events independent of target can be added such as various types of electro-optical countermeasures. At last using the synthesizing program, the wanted dynamic scenes are automatically generated by computer. The original target and background images can be easily got through the image DBMS. In the simulations of electro-optical countermeasures a strong emphasis is laid on CDIRCM system. First the mechanism how the imaging guided missile works is revealed secondly the atmospheric propagation of laser beam is
studied thirdly the structure and damage mechanism of IRCCD is analyzed, finally we utilize the dynamic generating system to simulate the CDRICM.
Computer editing and generating of dynamic scenes of various targets and backgrounds is actualized in this paper. At first four elements composing the scenes are extracted i.e. target background moving pattern and special events. Thus they are programmed into four modules carrying out corresponding tasks. In the target and background modules the images are processed and interest parameters are calculated. In the moving pattern module the way the target moving is specified. In the events module some typical events independent of target can be added such as various types of electro-optical countermeasures. At last using the synthesizing program, the wanted dynamic scenes are automatically generated by computer. The original target and background images can be easily got through the image DBMS. In the simulations of electro-optical countermeasures a strong emphasis is laid on CDIRCM system. First the mechanism how the imaging guided missile works is revealed secondly the atmospheric propagation of laser beam is
studied thirdly the structure and damage mechanism of IRCCD is analyzed, finally we utilize the dynamic generating system to simulate the CDRICM.
引文
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[11]何军,刘红岩,PowerBuilder7.0原理与应用,北京:电子工业出版社,2000
[12]蒋东兴,印敏等,Windows Sockets网络程序设计大全,北京:清华大学出版社,1999,p285-296
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[16]张鸣平等,夜视系统,北京:北京理工大学出版社,1993,p55-72
[17]McCoy J.H.et al,Water Vapor Continuum Absorption of Carbon Dioxide Laser Radiation Near Ten Micros[J].Appl Opt,1969,Vol.8,No.7,p1471-1478
[18]张逸新,迟泽英,光波在大气中的传输与成像,北京:国防工业出版社,1997,p5-6
[19]Strohben J W,Laser beam propagation in the atmosphere, Berlin:Springer-Verlag,1978,p100-120
[20]周仁忠,自适应光学理论,北京:北京理工大学出版社,1996,p184-185
[21]张逸新,迟泽英,激光大气传输束心抖动概率分布,光学学报,Vol.14,No.6,1994,p636-641
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[26]Mary J.Hewitt,红外读出电子部件:回顾与展望,1994,SPIE Vol.2226,p200-230
[27]刘贤德,CCD及其应用原理,武汉:华中理工大学出版社,1990,p100-144
[28]龚知本,激光大气传输研究若干问题进展,量子电子学报,Vol.15,No.2,1998,p114-13
[29]陈德章、卿光弼,激光对CCD固体摄像器件的饱和干扰效应,1997,Vol.21,No.3,p146-148
[30]向世明,倪国强,光电子成像器件原理,北京:国防工业出版社,1999,p11-12
[31]谭显裕,红外热成像技术的作用及前景,光电对抗与无源干扰,1995(4),p24—35
[32]李玉旗、梁峰,基于猫眼效应的光学目标识别,红外与激光,2000,Vol.30,No.4,p252-253
[33]卿光弼、王学楷,“猫眼效应”的物理模型及证明,激光技术,1995,Vol.19,No.4,p244-247
[34]Microsoft Inc.,Microsoft SQL Server 6.5 Transact-SQL参考手册,北京:宇航出版社,1997, p30-56
[35]Abraham Silberschatz,DataBase System Concepts(Third Edition), The McGraw-Hill Companies Inc.,1997, p1-10
[2]李世祥,光电对抗技术,北京:国防工业出版社,2000,p222-254
[3]A.A.Ageichik, O.G Kotyaev,Effect of atmospheric factors on the delivery of repetitively pulsed CO_2-laser radiation energy along paths in the surface layer of the atmosphere,J.Opt,Tech,1999,Vol.66,No.11, p931-938
[4]王学伟,张卫国,飞机目标动态红外图象的计算机生成,红外与激光工程,1999 Vol28,No.2,p21-24
[5]崔刚、陈晓峰等 面向半实物仿真的多计算机系统 计算机工程与应用1997.10,p30-32
[6]徐正伟,张向东,吴成柯,实时红外景象产生器,红外与毫米波学报,1997,Vol.16,No.3,p179-184
[7]刘劲松,闫剑锋、徐军,红外图象数据库的研建,红外与激光工程,2000,Vol.12,No.6,p44-60
[8]付伟,红外对抗中的激光技术,红外与激光工程,2001,Vol.30,No.3,p176-180
[9]周长发,精通Visual C++图象编程,北京:电子工业出版社,2000
[10]EricTall,ActiveX开发人员指南,北京:电子工业出版社,1997,p325-326
[11]何军,刘红岩,PowerBuilder7.0原理与应用,北京:电子工业出版社,2000
[12]蒋东兴,印敏等,Windows Sockets网络程序设计大全,北京:清华大学出版社,1999,p285-296
[13]林福宗,图象文件格式Windouws编程,北京:清华大学出版社,1998,p300-350
[14]章毓晋,图象工程(上)图象处理与分析,北京:清华大学出版社,1999,p218-252
[15]刘景生,红外物理,北京:兵器工业出版社,1992,p181-210
[16]张鸣平等,夜视系统,北京:北京理工大学出版社,1993,p55-72
[17]McCoy J.H.et al,Water Vapor Continuum Absorption of Carbon Dioxide Laser Radiation Near Ten Micros[J].Appl Opt,1969,Vol.8,No.7,p1471-1478
[18]张逸新,迟泽英,光波在大气中的传输与成像,北京:国防工业出版社,1997,p5-6
[19]Strohben J W,Laser beam propagation in the atmosphere, Berlin:Springer-Verlag,1978,p100-120
[20]周仁忠,自适应光学理论,北京:北京理工大学出版社,1996,p184-185
[21]张逸新,迟泽英,激光大气传输束心抖动概率分布,光学学报,Vol.14,No.6,1994,p636-641
[22]杨帆,雷明,增强定向红外干扰性能的新型激光器,光电对抗与无源干扰,2000,4,p21,22
[23]曾雄文,陆启生,CCD的光电特性研究,强激光与粒子束,1999,Vol.11,No.1,p47-51
[24]张敬贤,李玉丹,微光与红外成像技术,北京:北京理工大学出版社,1992,p217-226
[25]曾雄文,陆启生,赵伊君,消除强背景辐射干扰的光电探测新方法,强激光与粒子束,1998,Vol.10,No.2,p207—211
[26]Mary J.Hewitt,红外读出电子部件:回顾与展望,1994,SPIE Vol.2226,p200-230
[27]刘贤德,CCD及其应用原理,武汉:华中理工大学出版社,1990,p100-144
[28]龚知本,激光大气传输研究若干问题进展,量子电子学报,Vol.15,No.2,1998,p114-13
[29]陈德章、卿光弼,激光对CCD固体摄像器件的饱和干扰效应,1997,Vol.21,No.3,p146-148
[30]向世明,倪国强,光电子成像器件原理,北京:国防工业出版社,1999,p11-12
[31]谭显裕,红外热成像技术的作用及前景,光电对抗与无源干扰,1995(4),p24—35
[32]李玉旗、梁峰,基于猫眼效应的光学目标识别,红外与激光,2000,Vol.30,No.4,p252-253
[33]卿光弼、王学楷,“猫眼效应”的物理模型及证明,激光技术,1995,Vol.19,No.4,p244-247
[34]Microsoft Inc.,Microsoft SQL Server 6.5 Transact-SQL参考手册,北京:宇航出版社,1997, p30-56
[35]Abraham Silberschatz,DataBase System Concepts(Third Edition), The McGraw-Hill Companies Inc.,1997, p1-10
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