机载无源对抗综合化系统设计与实现
摘要
机载无源对抗综合化系统由对抗控制系统和模拟器两部分组成。对抗控制系统是某重点型号航空电子综合系统中的一个分系统,该系统的主要功能是在我机受到敌武器系统威胁时,对敌武器系统实施光/电干扰,降低敌武器系统目标识别能力,使我机脱离敌武器系统的威胁,进而提高我机生存及作战能力。模拟器用于模拟对抗控制系统外部工作环境,并实现对对抗控制系统的控制管理。
本论文对机载无源对抗综合化系统的设计进行了深入研究,对系统综合化设计技术进行了简要论述,并按其技术要求,对该系统进行了设计。主要完成了系统方案设计、系统硬件设计、系统软件设计、系统调试、实时性分析等项工作。重点解决了系统实时性控制、嵌入式设计技术及总线控制方式等问题。实现了机载无源对抗综合化系统原理样机。
机载无源对抗综合化系统的设计与实现为机载无源对抗综合化系统的工程化应用奠定了技术基础。该技术的应用,将彻底改变目前我国机载无源对抗综合化系统的结构方式和落后局面,缩短我国在该领域与国外先进国家的差距。
The integrated airborne passive countermeasure system is divided into two parts the countermeasure control system and simulator. The countermeasure control system belongs to a certain key avionic integration whose main function is using photoelectric jamming to the opponent system to reduce the target discernment of the opponent system in order to avoid the opponent menace , to enhance the capability of existence and fighting . The simulator simulates the outer working condition of the a countermeasure control system and control the countermeasure control system.
This paper presents in details the study of the design of the passive jamming integration simulation system. The integrated design of the system is briefly narrated and according to the technological requirements the system is designed including the design of systematic program, the design of hardware and software, computer debug and the present analysis. The control of the system, the technology of the embedded design and the control of the main line are greatly centered on. The sample of the integrated airborne passive countermeasure system is turned into reality.
The design and realization of the integrated airborne passive countermeasure system lay a solid foundation to the engineering of the integrated airborne passive countermeasure system. The application of the technology will change completely the construction of the national integrated airborne passive countermeasure system and the backwardness, reduce the difference between our country and the developed countries in the field.
本论文对机载无源对抗综合化系统的设计进行了深入研究,对系统综合化设计技术进行了简要论述,并按其技术要求,对该系统进行了设计。主要完成了系统方案设计、系统硬件设计、系统软件设计、系统调试、实时性分析等项工作。重点解决了系统实时性控制、嵌入式设计技术及总线控制方式等问题。实现了机载无源对抗综合化系统原理样机。
机载无源对抗综合化系统的设计与实现为机载无源对抗综合化系统的工程化应用奠定了技术基础。该技术的应用,将彻底改变目前我国机载无源对抗综合化系统的结构方式和落后局面,缩短我国在该领域与国外先进国家的差距。
The integrated airborne passive countermeasure system is divided into two parts the countermeasure control system and simulator. The countermeasure control system belongs to a certain key avionic integration whose main function is using photoelectric jamming to the opponent system to reduce the target discernment of the opponent system in order to avoid the opponent menace , to enhance the capability of existence and fighting . The simulator simulates the outer working condition of the a countermeasure control system and control the countermeasure control system.
This paper presents in details the study of the design of the passive jamming integration simulation system. The integrated design of the system is briefly narrated and according to the technological requirements the system is designed including the design of systematic program, the design of hardware and software, computer debug and the present analysis. The control of the system, the technology of the embedded design and the control of the main line are greatly centered on. The sample of the integrated airborne passive countermeasure system is turned into reality.
The design and realization of the integrated airborne passive countermeasure system lay a solid foundation to the engineering of the integrated airborne passive countermeasure system. The application of the technology will change completely the construction of the national integrated airborne passive countermeasure system and the backwardness, reduce the difference between our country and the developed countries in the field.
引文
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[2] 王锡吉,李平,杨家铿.可靠性工程.电子工业质量与可靠性,1999,1:6-7
[3] 侯朝桢.分布式计算机控制系统.北京:北京理工大学出版社,1997
[4] 沈德金,陈粤初.MCS-51系列单片机接口电路与应用程序实例.第五版.北京:北京航空航天大学出版社,1995
[5] 孙涵芳、徐爱卿.MCS-51/96系列单片机原理及应用.北京:北京航空航天大学出版社,1996
[6] Thomas W. Madron. 熊伟华,马洪兵,孟昭晖,邓露林 译.局域网新技术与标准.北京:电子工业出版社,1995
[7] 杜毅仁,李慕靖,王建中,陈启帆.16位微型计算机(中册).第四版.上海:上海交通大学出版社,1988
[8] Barry B.Brey.陈谊 等译.intel系列微处理器结构、编程和接口技术大全.北京:机械工业出版社,1998
[9] 熊可宜,刘学功,魏群.微型机软、硬件及连网技术.北京:海洋出版社,1992
[10] 何立民.单片机应用系统设计.北京:航空航天大学出版社,2001
[11] 王晓军,徐志宏.微机原理与接口技术.北京:北京邮电大学出版社,2001
[12] 王闵.计算机组成原理.北京:电子工业出版社,2001
[13] 李大友,张秀琼,吴定荣.微型计算机接口技术.北京:清华大学出版社,1998
[14] 王春森.系统设计师教程.北京:清华大学出版社,2001
[15] 鲁士文.计算机网络原理与网络技术 北京:机械工业出版社 1997
[16] 王俊莲,杨树槐,王光兴,朱志良.计算机基础知识及应用.第二版.沈阳:辽宁大学出版社,2000
[17] John Ray.王建华,陈一飞,董志敏 等译.TCP/IP开发使用手册.北京:机械工业出版社,1999
[18] 杨天行,江学国,张学孝.计算机技术—现代战争的信息中枢.北京:国防工业出版社,1999
[19] Roger S.Pressman.黄柏素,梅宏 译.软件工程—实践者的研究方法.北京:机械工业出版社,1999
[20] Hooper J W, Chester R O. Software Reuse: Guidelines and Methods press, 1991