捷联惯导与被动雷达组合导航系统的研究
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摘要
本文以组合导航系统为研究对象,重点研究了捷联惯导系统与被动雷达系统的组合导航系统,为捷联惯导系统与被动雷达系统组合实现远距离、自主导航提供了重要的理论依据和实践方法。
论文简要介绍了雷达随动系统的工作原理,列举了雷达随动系统的几种常见设计方案,通过性能比较,选择了一种电动平台伺服式的随动系统设计方案,给出了系统的参数设计。最后,对满足设计要求的系统的工作过程及性能分析做了详细说明。
本论文在对捷联惯导系统的基本原理、算法及力学编排做了详细介绍的基础上,对捷联惯导系统进行了仿真研究。为了对假定弹道轨迹进行分析研究,设计了飞行状态数据发生器,产生仿真用的输入信号,并取得不错的效果。论文对高度通道作了详细的研究,重点对组合高度通道的二、三阶阻尼形式的回路的性能了进行了分析。
本论文给出了捷联惯导系统与被动雷达导引头随动系统的信息交换方案,利用捷联惯导系统自身提供的信息以及一些外部先知信息,实时计算导弹的视线角,并让被动雷达导引头的随动系统跟踪视线,可以保证在捷联惯导允许误差的范围内雷达导引头时刻对准目标。这样在被动雷达开机后,能快速搜索到目标。论文最后在介绍了被动雷达信号特征及卡尔曼滤波算法的基础上,给出在末制导段捷联惯导系统与被动雷达系统异类传感器的信息融合方案。
Taking integrated navigation system as the object, the integrated navigation system of the SINS and the passive radar is studied mainly. In this paper, an important proof is provided by theory and practice for the integrated navigation system to guide for a long distance independently.
The operating principle of the following-up system of the passive radar is simply introduced, and some several commonly -used design schemes are given. Then a electromechanical platform servo following-up system scheme is chosen by comparing, and the parameters of the system are determined by the way of frequency behavior. Finally the process and performance of the system are particularly described.
On the base of introduction of the basic principle of SINS, algorithm and mechanics arrangement, the SINS is programmed and studied. To analyse the supposed trajectory, the flight state data generator is designed to generate the simulating input signals and good effect is gained in simulation. In the paper, the vertical channel of the SINS is also specially studied, which emphasis is put on the performance analysis of the second order and the third order damping loop.
In the paper, the scheme of information exchange between the SINS and the passive radar is proposed. In the case of the calculation of the angle of the line of sight with SINS information itself and some exterior precognitive information, and the seeker track of the angle, the target can be aimed at by the seeker of passive radar, if the error of SINS is ignored. Then after the passive radar boost-strap, target can be quickly searched. With the foundation of the introduction of the character of the passive radar signal and the algorithm of Kalman Filter, the information fusion scheme of the heterogeneous sensors, the SINS and the passive radar, is presented at the terminal guidance section.
论文简要介绍了雷达随动系统的工作原理,列举了雷达随动系统的几种常见设计方案,通过性能比较,选择了一种电动平台伺服式的随动系统设计方案,给出了系统的参数设计。最后,对满足设计要求的系统的工作过程及性能分析做了详细说明。
本论文在对捷联惯导系统的基本原理、算法及力学编排做了详细介绍的基础上,对捷联惯导系统进行了仿真研究。为了对假定弹道轨迹进行分析研究,设计了飞行状态数据发生器,产生仿真用的输入信号,并取得不错的效果。论文对高度通道作了详细的研究,重点对组合高度通道的二、三阶阻尼形式的回路的性能了进行了分析。
本论文给出了捷联惯导系统与被动雷达导引头随动系统的信息交换方案,利用捷联惯导系统自身提供的信息以及一些外部先知信息,实时计算导弹的视线角,并让被动雷达导引头的随动系统跟踪视线,可以保证在捷联惯导允许误差的范围内雷达导引头时刻对准目标。这样在被动雷达开机后,能快速搜索到目标。论文最后在介绍了被动雷达信号特征及卡尔曼滤波算法的基础上,给出在末制导段捷联惯导系统与被动雷达系统异类传感器的信息融合方案。
Taking integrated navigation system as the object, the integrated navigation system of the SINS and the passive radar is studied mainly. In this paper, an important proof is provided by theory and practice for the integrated navigation system to guide for a long distance independently.
The operating principle of the following-up system of the passive radar is simply introduced, and some several commonly -used design schemes are given. Then a electromechanical platform servo following-up system scheme is chosen by comparing, and the parameters of the system are determined by the way of frequency behavior. Finally the process and performance of the system are particularly described.
On the base of introduction of the basic principle of SINS, algorithm and mechanics arrangement, the SINS is programmed and studied. To analyse the supposed trajectory, the flight state data generator is designed to generate the simulating input signals and good effect is gained in simulation. In the paper, the vertical channel of the SINS is also specially studied, which emphasis is put on the performance analysis of the second order and the third order damping loop.
In the paper, the scheme of information exchange between the SINS and the passive radar is proposed. In the case of the calculation of the angle of the line of sight with SINS information itself and some exterior precognitive information, and the seeker track of the angle, the target can be aimed at by the seeker of passive radar, if the error of SINS is ignored. Then after the passive radar boost-strap, target can be quickly searched. With the foundation of the introduction of the character of the passive radar signal and the algorithm of Kalman Filter, the information fusion scheme of the heterogeneous sensors, the SINS and the passive radar, is presented at the terminal guidance section.
引文
[1] 陈哲.捷联惯导系统原理.宇航出版社.1986:9-54页
[2] 江泽.INS/GPS实时仿真系统研究,西北工业大学硕士学位论文.2003:17-20页,64-80页
[3] 沈允春.反辐射导弹雷达导引头的总体设计概述.航空学报.1988:211-215页
[4] 杨艳娟.ARM导引头随动系统设计与研究.哈尔滨工程大学硕士学位论文.1999:6-14页,40-59页
[5] 孙枫,袁赣南,张晓红.组合导航系统.哈尔滨工程出版社.1996:26-38页
[6] 颜东,张洪铖.捷联导引头制导系统导引率及自适应滤波方案设计.宇航学报.1996:8-17页
[7] 崔学忠,赵冰,黄友谊.导弹高度通道过程测试方法研究.海军航空工程学院学报.2005(7):447-448页
[8] Carlson.N.A, Federated Filter for Fault-Tolerant Integrated Navigation Systems, 1988Proc.of IEEE Trans.on Auto.Control, 1988,33 (1):88-94P
[9] Paul G.Savage. Strapdown Inertial Navigation Integration Algorithm Design. Part 1: Attitude Algorithms. Journal of Guidance, Control, And Dynamics. Vol.21 ,No.2, March-April 1998:208-221P
[10] 7181导引头随动系统设计和综合放大器调试总结.哈尔滨工程大学科学技术档案.1978
[11] 刘育华,崔乃刚.具有抗雷达关机能力的反辐射导弹全弹道仿真计算.哈尔滨工程大学学报.1993:53-57页
[12] 张树侠,孙静.捷联式惯性导航系统.国防工业出版社.1988:126-154页
[13] 黄国荣,张宗麟.用机载雷达校正惯导系统的一种方案.现代雷达.2000(10):15-17页
[14] 粱健.异类传感器数据融合技术应用.测控遥感与导航定 位.2006(7):33-35页
[15] 杨艳娟,马澍田,黄德鸣.双通道电动ARM导引头随动系统的设计与分析.哈尔滨工程大学学报.2000(4):85-87页
[16] 胡小平.自主导航理论与应用.国防科技大学出版社.2002:155-171页,5-18页
[17] 赵鸿,赵忠,龙国庆.捷联惯性导航系统飞行轨迹数据生成与惯性器件建模.系统仿真学报.2005(5):1026-1028页
[18] 黄德明,张树侠,孙枫.平台罗经.国防工业出版社.1990:67-83页
[19] Schmidt S F. The Kalman filter: Its recognition and development for aerospace application. Journal of Guidance and Control, 1981,4(1)
[20] Rudolf Emil Kalman. A New Approach to Linear Filtering and Prediction Problems. MIT B.A. degree thesis. 1960
[21] Titterton D H, Weston J h. Strap-down Inertial Navigation Technology. Peter Peregrines Ltd. On Behalf of the Institution of Electrical Engineers, 1997: 97-102P
[22] 史震,于秀萍,马澍田.无陀螺捷联式惯性导航系统.哈尔滨工程大学出版社.2005:41-49页
[23] 黄德鸣,程禄.惯性导航系统.国防工业出版社.1986:12-13页
[24] 吴简彤,乐慧康,朱荣生,张树侠.多传感器数据融合导航系统研究.导航.1999(3):1-7页
[25] 李连仲,毛金国.末制导雷达/惯性复合导航算法.航天控制.2006(2).43-45页
[26] 秦永元,张洪钺,汪叔华.卡尔曼滤波与组合导航原理.西北工业大学出版社.1998:35页,272-316页
[27] 张洪钺.联邦滤波器的设计理论.导航.1998(3):61-80页
[28] 刘希斌.数据融合技术研究及其在组合导航中的应用.哈尔滨工程大学硕士学位论文.2000(3):21-72页
[29] 高社生,周涛.INS/SAR/GPS组合导航系统中的信息融合算法研究.航空电子技术.2002(3):41-43页
[30] 孙建峰,申功勋.导航传感器系统的信息融合.中国惯性技术学报.1995,3(4):5-8页
[31] 曲润峰.主/被动雷达信息融合方法研究与应用.西北工业大学硕士学位论文.2005:62-65页
[32] 卢大威.主被动雷达复合制导中的信息融合技术研究.国防科学技术大学硕士学位论文.2005:13-15页,40页
[33] 焦彦华.主被动复合制导雷达性能评估研究.国防科学技术大学硕士学位论文.2005:50页,58-60页
[34] 胡昌华等.一种主/被动雷达模糊数据融合算法.系统仿真技术.2005(6):8-10页
[35] 詹磊,司锡才,薛伟.被动雷达/红外复合制导目标跟踪的数据融合研究.哈尔滨工程大学学报.2002:52-55页
[36] 王成,李少洪.被动式多雷达系统的多目标数据融合.电子学报.2002:203页
[37] Geogre T Schmudt. GPS/INS Technology Trends for Military Systems. AIAA-Guidance, Navigation, and Control Conference. New Or]eans, La, 1997:102-112P
[38] Goshen-Meskin D, Bar-Itzhack I Y. Unified Approach to Inertial Navigation System Error Modeling. Journal of Guidance, Control and Dynamics, 1992,15(3)
[39] Williams DE, Richrnan J, Friedland B. Design of an Integrated Strap-down Guidance and Control System for a Tactical Missiles AIAA 83-2169,1983:57-66P
[40] 信息专递.俄罗斯研发导引头的龙头企业.飞航导弹.2004(1):16-20
[41] 赵玉霞.捷联惯性系统仿真算法的研究及其实现.大连理工大学硕士学位论文.2005:29-33页
[42] 张春慧,吴简彤.四阶龙格-库塔法在捷联惯导系统姿态解算中的应用.应用科技.2005(6):37-39页
[43] 刘柱,陈勤,高伟.捷联惯导系统仿真器的设计.应用科技.2005(7):40-42页
[44] 柴洪亮.对地攻击精确制导导弹及对其干扰技术的措施.飞航导弹.2005:32页
[45] 弗里德连杰尔.惯性导航系统.国防工业出版社.1965:41-42页
[46] 从牛顿力学到惯性制导,R.L.Gates,新时代出版社.1985:2-6页
[47] 竺苗龙.多级火箭的优化理论.宇航出版社.1988:235-247页
[48] 竺苗龙.最佳轨道引论.宇航出版社.1989:3-7页,132-141页
[49] 史震,赵世军.导弹制导与控制原理.哈尔滨工程大学出版社.2002:18-20页,页34-37
[50] 吴俊伟.惯性技术基础.哈尔滨工程大学出版社.2002:9-30页,115-129页
[2] 江泽.INS/GPS实时仿真系统研究,西北工业大学硕士学位论文.2003:17-20页,64-80页
[3] 沈允春.反辐射导弹雷达导引头的总体设计概述.航空学报.1988:211-215页
[4] 杨艳娟.ARM导引头随动系统设计与研究.哈尔滨工程大学硕士学位论文.1999:6-14页,40-59页
[5] 孙枫,袁赣南,张晓红.组合导航系统.哈尔滨工程出版社.1996:26-38页
[6] 颜东,张洪铖.捷联导引头制导系统导引率及自适应滤波方案设计.宇航学报.1996:8-17页
[7] 崔学忠,赵冰,黄友谊.导弹高度通道过程测试方法研究.海军航空工程学院学报.2005(7):447-448页
[8] Carlson.N.A, Federated Filter for Fault-Tolerant Integrated Navigation Systems, 1988Proc.of IEEE Trans.on Auto.Control, 1988,33 (1):88-94P
[9] Paul G.Savage. Strapdown Inertial Navigation Integration Algorithm Design. Part 1: Attitude Algorithms. Journal of Guidance, Control, And Dynamics. Vol.21 ,No.2, March-April 1998:208-221P
[10] 7181导引头随动系统设计和综合放大器调试总结.哈尔滨工程大学科学技术档案.1978
[11] 刘育华,崔乃刚.具有抗雷达关机能力的反辐射导弹全弹道仿真计算.哈尔滨工程大学学报.1993:53-57页
[12] 张树侠,孙静.捷联式惯性导航系统.国防工业出版社.1988:126-154页
[13] 黄国荣,张宗麟.用机载雷达校正惯导系统的一种方案.现代雷达.2000(10):15-17页
[14] 粱健.异类传感器数据融合技术应用.测控遥感与导航定 位.2006(7):33-35页
[15] 杨艳娟,马澍田,黄德鸣.双通道电动ARM导引头随动系统的设计与分析.哈尔滨工程大学学报.2000(4):85-87页
[16] 胡小平.自主导航理论与应用.国防科技大学出版社.2002:155-171页,5-18页
[17] 赵鸿,赵忠,龙国庆.捷联惯性导航系统飞行轨迹数据生成与惯性器件建模.系统仿真学报.2005(5):1026-1028页
[18] 黄德明,张树侠,孙枫.平台罗经.国防工业出版社.1990:67-83页
[19] Schmidt S F. The Kalman filter: Its recognition and development for aerospace application. Journal of Guidance and Control, 1981,4(1)
[20] Rudolf Emil Kalman. A New Approach to Linear Filtering and Prediction Problems. MIT B.A. degree thesis. 1960
[21] Titterton D H, Weston J h. Strap-down Inertial Navigation Technology. Peter Peregrines Ltd. On Behalf of the Institution of Electrical Engineers, 1997: 97-102P
[22] 史震,于秀萍,马澍田.无陀螺捷联式惯性导航系统.哈尔滨工程大学出版社.2005:41-49页
[23] 黄德鸣,程禄.惯性导航系统.国防工业出版社.1986:12-13页
[24] 吴简彤,乐慧康,朱荣生,张树侠.多传感器数据融合导航系统研究.导航.1999(3):1-7页
[25] 李连仲,毛金国.末制导雷达/惯性复合导航算法.航天控制.2006(2).43-45页
[26] 秦永元,张洪钺,汪叔华.卡尔曼滤波与组合导航原理.西北工业大学出版社.1998:35页,272-316页
[27] 张洪钺.联邦滤波器的设计理论.导航.1998(3):61-80页
[28] 刘希斌.数据融合技术研究及其在组合导航中的应用.哈尔滨工程大学硕士学位论文.2000(3):21-72页
[29] 高社生,周涛.INS/SAR/GPS组合导航系统中的信息融合算法研究.航空电子技术.2002(3):41-43页
[30] 孙建峰,申功勋.导航传感器系统的信息融合.中国惯性技术学报.1995,3(4):5-8页
[31] 曲润峰.主/被动雷达信息融合方法研究与应用.西北工业大学硕士学位论文.2005:62-65页
[32] 卢大威.主被动雷达复合制导中的信息融合技术研究.国防科学技术大学硕士学位论文.2005:13-15页,40页
[33] 焦彦华.主被动复合制导雷达性能评估研究.国防科学技术大学硕士学位论文.2005:50页,58-60页
[34] 胡昌华等.一种主/被动雷达模糊数据融合算法.系统仿真技术.2005(6):8-10页
[35] 詹磊,司锡才,薛伟.被动雷达/红外复合制导目标跟踪的数据融合研究.哈尔滨工程大学学报.2002:52-55页
[36] 王成,李少洪.被动式多雷达系统的多目标数据融合.电子学报.2002:203页
[37] Geogre T Schmudt. GPS/INS Technology Trends for Military Systems. AIAA-Guidance, Navigation, and Control Conference. New Or]eans, La, 1997:102-112P
[38] Goshen-Meskin D, Bar-Itzhack I Y. Unified Approach to Inertial Navigation System Error Modeling. Journal of Guidance, Control and Dynamics, 1992,15(3)
[39] Williams DE, Richrnan J, Friedland B. Design of an Integrated Strap-down Guidance and Control System for a Tactical Missiles AIAA 83-2169,1983:57-66P
[40] 信息专递.俄罗斯研发导引头的龙头企业.飞航导弹.2004(1):16-20
[41] 赵玉霞.捷联惯性系统仿真算法的研究及其实现.大连理工大学硕士学位论文.2005:29-33页
[42] 张春慧,吴简彤.四阶龙格-库塔法在捷联惯导系统姿态解算中的应用.应用科技.2005(6):37-39页
[43] 刘柱,陈勤,高伟.捷联惯导系统仿真器的设计.应用科技.2005(7):40-42页
[44] 柴洪亮.对地攻击精确制导导弹及对其干扰技术的措施.飞航导弹.2005:32页
[45] 弗里德连杰尔.惯性导航系统.国防工业出版社.1965:41-42页
[46] 从牛顿力学到惯性制导,R.L.Gates,新时代出版社.1985:2-6页
[47] 竺苗龙.多级火箭的优化理论.宇航出版社.1988:235-247页
[48] 竺苗龙.最佳轨道引论.宇航出版社.1989:3-7页,132-141页
[49] 史震,赵世军.导弹制导与控制原理.哈尔滨工程大学出版社.2002:18-20页,页34-37
[50] 吴俊伟.惯性技术基础.哈尔滨工程大学出版社.2002:9-30页,115-129页