共查询到17条相似文献,搜索用时 250 毫秒
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复合制导中的优化制导律研究 总被引:1,自引:0,他引:1
研究了飞行器精密制导方式之一复合制导律优化问题,首先给出了采用串联式复合制导飞行器的几咱中、末优化制导律,利用文中所述改进的最速下降优化方法,选择了中制导采用最佳预测制导律,末制导制采用改进的比例导引律的比例系数K的最优值,最后结合实便进行了仿真计算。 相似文献
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本文对某型地空导弹自寻的末制导律的最优性问题进行了系统的仿真研究。文中给出了末制导系统的数学模型,提出了五种适合于地空导弹自寻的末制导的导引规律。在某型号预研地空导弹的四条典型弹道上对所提出的导引规律进行了全面的仿真研究。结果表明:本文给出的四种制导规律要比比例导引规律制导性能优越的多,有更好的制导精度。 相似文献
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变结构控制在导弹制导中的应用综述 总被引:10,自引:3,他引:10
简要介绍了变结构控制理论和导弹制导律,对基于变结构控制的导弹制导律进行了比较详细的研究。重点介绍了各种制导律中滑模面的选择和制导律的设计,并给出了一些仿真结果。研究表明,由于变结构控制的应用.使得制导律具有很强的鲁棒性,比传统的比例导引律有更多的优越性。 相似文献
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一种攻击地面固定目标的变系数比例导引律 总被引:10,自引:1,他引:9
为了提高命中精度 ,减小控制能量的消耗 ,对攻击地面固定目标且速度随时间变化的追踪器 ,推导出一种以控制能量消耗最小为性能指标的最优导引律 ,其中剩余时间的估算不仅考虑到追踪器速度大小的变化 ,而且考虑了方向的变化。同时 ,为了满足某些追踪器在碰撞点垂直入射的要求 ,给出在铅垂面内攻击时具有修正项的变系数比例导引律。仿真结果表明 ,该导引律与常系数比例导引律相比 ,控制能量少 ,脱靶量小 ,命中精度高。 相似文献
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基于一般弹目平面运动模型,以视线角、视线角速率为状态变量将弹目运动关系转换为二阶控制系统状态空间表达,把制导律设计转化为系统控制律的设计问题.在此控制模型的基础之上,利用Lyapunov稳定性定理,以视线角速率平方项作为能量函数设计了一种新型的扩展比例导引律,与其他扩展比例导引律相比,该导引律不需要增加任何制导观测信息,可以有效抑制噪声影响,并将基于Lyapunov稳定性的末制导律设计方法推广到有终端角约束的制导律设计中.仿真结果比较表明,该制导律可以提高制导精度、有效减小制导信息中的噪声影响. 相似文献
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针对拦截机动目标问题,提出了一种新的具有强鲁棒性的非线性变结构末制导律。基于弹目相对运动学的非线性关系,将目标机动作为系统扰动,建立了弹目相对运动的数学模型。并基于零化弹目视线角速率的思想,利用一种新的双幂次趋近律设计方法,得到了非线性变结构末制导律。该方法利用Lyapunov稳定理论,严格证明了制导系统的全局渐近稳定性。数字仿真结果表明,所设计的制导律与比例导引律相比,对高速大机动目标具有很强的鲁棒性和适应性,并能获得良好的制导精度。 相似文献
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针对传统比例导引法攻击机动目标的不足,建立了三维空间中反舰导弹和目标的相对运动模型,在研究反舰导弹攻击非机动目标的最优制导律基础上,利用俯仰和偏航两个平面相叠加的方法,结合滑模控制理论设计了工程上易于实现的三维模型下的反舰导弹最优滑模制导律。仿真结果表明,给出的导引律在攻击机动目标时制导精度高、脱靶量小,导引控制过程具有良好的动态性,性能明显优于传统的比例导引律。 相似文献
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利用虚拟目标概念和三维空间追逃模型,提出了一种基于Lyapunov稳定性的扩展比例导引律。该导引律能同时满足脱靶量要求和末端落角要求,保证了大空域变轨弹道的各段弹道平滑衔接。利用该导引律引导反舰导弹实现了各种形式的大空域变轨弹道。采用大空域变轨弹道有利于提高反舰导弹的机动能力和突防能力。仿真结果证明了所提出的基于Lyapunov稳定性的扩展比例导引律是很有效的。 相似文献
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《中国航空学报》2020,33(3):990-1005
Cooperative guidance strategy for multiple hypersonic gliding vehicles system with flight constraints and cooperative constraints is investigated. This paper mainly cares about the coordination of the entry glide flight phase and driving-down phase. Different from the existing results, both the attack time and the attack angle constraints are considered simultaneously. Firstly, for the entry glide flight phase, a two-stage method is proposed to achieve the rapid cooperative trajectories planning, where the control signal corridors are designed based on the quasi-equilibrium gliding conditions. In the first stage, the bank angle curve is optimized to achieve the attack angle coordination. In the second stage, the angle of attack curve is optimized to achieve the attack time coordination. The optimized parameters can be obtained by the secant method. Secondly, for the driving-down phase, the cooperative terminal guidance law is designed where the terminal attack time and attack angle are considered. The guidance law is then transformed into the bank angle and angle of attack commands. The cooperative guidance strategy is summarized as an algorithm. Finally, a numerical simulation example with three hypersonic gliding vehicles is provided for revealing the effectiveness of the acquired strategy and algorithm. 相似文献
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The terminal guidance problem for an unpowered lifting reentry vehicle against a sta- tionary target is considered. In addition to attacking the target with high accuracy, the vehicle is also expected to achieve a desired impact angle. In this paper, a sliding mode control (SMC)-based guidance law is developed to satisfy the terminal angle constraint. Firstly, a specific sliding mode function is designed, and the terminal requirements can be achieved by enforcing both the sliding mode function and its derivative to zero at the end of the flight. Then, a backstepping approach is used to ensure the finite-time reaching phase of the sliding mode and the analytic expression of the control effort can be obtained. The trajectories generated by this method only depend on the initial and terminal conditions of the terminal phase and the instantaneous states of the vehicle. In order to test the performance of the proposed guidance law in practical application, numerical simulations are carried out by taking all the aerodynamic parameters into consideration. The effec- tiveness of the proposed guidance law is verified by the simulation results in various scenarios. 相似文献
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A joint mid-course and terminal course cooperative guidance law for multi-missile salvo attack 总被引:1,自引:0,他引:1
Salvo attacking a surface target by multiple missiles is an effective tactic to enhance the lethality and penetrate the defense system. However, existing cooperative guidance laws in the mid-course or terminal course are not suitable for long- and medium-range missiles or stand-off attacking. Because the initial conditions of cooperative terminal guidance that are generally generated from the mid-course flight may not lead to a successful cooperative terminal guidance without proper mid-course flight adjustment. Meanwhile, cooperative guidance in the mid-course cannot solely guarantee the accuracy of a simultaneous arrival of multiple missiles. Therefore, a joint mid-course and terminal course cooperative guidance law is developed. By building a distinct leader-follower framework, this paper proposes an efficient coordinated Dubins path planning method to synchronize the arrival time of all engaged missiles in the mid-course flight. The planned flight can generate proper initial conditions for cooperative terminal guidance, and also benefit an earliest simultaneous arrival. In the terminal course, an existing cooperative proportional navigation guidance law guides all the engaged missiles to arrive at a target accurately and simultaneously. The integrated guidance law for an intuitive application is summarized. Simulations demonstrate that the proposed method can generate fast and accurate salvo attack. 相似文献