共查询到18条相似文献,搜索用时 140 毫秒
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为提高导弹导引精度,增强对落角的控制,针对带倾角运动的目标,推导了攻击运动目标带落角约束的偏置比例导引律。通过在偏置项中加入导弹-目标的相对运动状态,实现对带倾角运动目标指定角度攻击;考虑到导弹带落角约束攻击运动目标时传统剩余飞行时间估计精度不高的问题,通过对弹目碰撞点的预测,在推导的导引律基础上设计了基于预测碰撞点的剩余飞行时间估计方法。仿真结果表明:在不同的落角约束下,设计的基于预测碰撞点的剩余飞行时间估计方法估计精准;推导的攻击运动目标带落角约束的偏置比例导引律攻击精度高,对落角控制强,过载分布合理。 相似文献
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为研究导弹在视场角约束下的三维攻击时间控制问题,提出一种三维非线性滑模导引律。利用攻击时间误差设计滑模面,推导出三维形式的俯仰和偏航加速度指令;通过对所设计制导律进行简单修正,解决了零初始前置角引起的奇点问题;从数学上证明了该导引律的稳定性和收敛性,讨论了导引律相关参数的取值范围,分析了与纯比例导引法、解耦三维导引律之间的关系。仿真结果表明,所设计导引律能够在视场角约束条件下有效实现攻击时间增大或减小的控制;俯仰和偏航平面的耦合程度越强,该导引律控制能耗小的优势越为明显。 相似文献
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针对防区外多导弹协同突防要求导弹能够成功突破敌防御系统并击中目标的问题,提出了一种基于虚拟目标的复合制导规律。首先,在敌雷达探测范围的边缘设置虚拟目标,将导弹制导过程分为制导段Ⅰ和制导段Ⅱ。然后,研究了一种基于攻击时间和攻击角度控制的制导规律,使导弹在制导段Ⅰ按指定时间和角度追踪到虚拟目标,导弹转入制导段Ⅱ后在以攻击时间最短为指标函数的最优制导规律导引下攻击真实目标。仿真结果表明该复合制导规律大大提高了多导弹的整体突防能力。 相似文献
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为使得多枚导弹在存在通信时延的情况下有效完成对机动目标的同时攻击,提出了一种抗通信时延的固定时间收敛分布式协同制导律。该制导律基于固定时间控制技术框架,实现了稳定时间边界不依赖于多导弹系统初始状态,提升了多导弹系统控制效率;采用一种快速非奇异终端滑模和虚拟领弹共同主导的方法,可实现制导律具有对抗通信时延的鲁棒性;利用了李雅普诺夫稳定性理论证明了固定时间内的一致性。仿真结果表明,存在通信时延的情况下,基于所设计的分布式协同制导律,多枚导弹能够有效地完成对目标的同时攻击。 相似文献
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针对机动目标的多导弹齐射攻击,运用最优控制和卡尔曼滤波理论探索机动目标下弹着时间可控制导律问题。设计了一种最优弹着时间可控的制导律,它由指定弹着时间和预计弹着时间的误差作为反馈信号与传统比例制导律结合推导得出,称之为弹着时间可控制导律(Impact-time-control Guidance Law,简称ITCG),同时利用卡尔曼滤波估计了目标加速度。通过对作战模型情况的仿真,可以看出这种新型的制导律应用于引导多发导弹以指定时间同时攻击目标时的有效性和可行性。 相似文献
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为了实施饱和攻击,需要对撞击角度与飞行时间同时进行控制。通过一种导弹撞击角度与飞行时间两阶段控制制导策略实现导弹撞击角度与飞行时间控制。第一阶段:基于切换滑模思想在纵向通道内对导弹飞行时间进行精确控制,侧向通道制导指令采用传统的纯比例导引律。第二阶段:切换到含重力补偿轨迹调节最优制导律对撞击角度进行精确控制,与显式制导不同,该制导律显式包含重力补偿项。设计数值仿真验证撞击角度与飞行时间两阶段控制制导方法的有效性,仿真结果表明,所给出的撞击角度与飞行时间两阶段控制制导方法能够实现撞击角度与飞行时间的同时控制。 相似文献
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For the case that two pursuers intercept an evasive target, the cooperative strategies and state estimation methods taken by pursuers can seriously affect the guidance accuracy for the target, which performs a bang For the case that two pursuers intercept an evasive target, the cooperative strategies and state estimation methods taken by pursuers can seriously affect the guidance accuracy for the target, which performs a bang-bang evasive maneuver with a random switching time. Combined Fast multiple model adaptive estimation (Fast MMAE) algorithm, the cooperative guidance law takes detection configuration affecting the accuracy of interception into consideration. Introduced the detection error model related to the line-of-sight (LOS) separation angle of two interceptors, an optimal cooperative guidance law solving the optimization problem is designed to modulate the LOS separation angle to reduce the estimation error and improve the interception performance. Due to the uncertainty of the target bang-bang maneuver switching time and the effective fitting of its multi-modal motion, Fast MMAE is introduced to identify its maneuver switching time and estimate the acceleration of the target to track and intercept the target accurately. The designed cooperative optimal guidance law with Fast MMAE has better estimation ability and interception performance than the traditional guidance law and estimation method via Monte Carlo simulation. 相似文献
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为了解决弹道导弹在高海拔发射场进行飞行试验时的大动压检验问题,提出一种模拟大动压条件的试验弹道设计方法。针对发射场的实际特点,建立残骸再入的动力学模型与落区边界模型;将大动压模拟条件转化为过程约束,提出一种主动段联合优化策略。基于自适应模拟退火算法,分别设计了三组满足不同大动压模拟条件和各项约束的试验弹道,并给出了对应的落区调整方案,验证了该方法的可行性。设计结果表明,最大动压主要出现在一级,一级最大负攻角增加,则最大动压也明显提高;同时调整发射方位角和二、三级程序角可以保证试验弹道满足弹头落点约束条件。 相似文献
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《防务技术》2020,16(6):1130-1141
Based on fuzzy adaptive and dynamic surface (FADS), an integrated guidance and control (IGC) approach was proposed for large caliber naval gun guided projectile, which was robust to target maneuver, canard dynamic characteristics, and multiple constraints, such as impact angle, limited measurement of line of sight (LOS) angle rate and nonlinear saturation of canard deflection. Initially, a strict feedback cascade model of IGC in longitudinal plane was established, and extended state observer (ESO) was designed to estimate LOS angle rate and uncertain disturbances with unknown boundary inside and outside of system, including aerodynamic parameters perturbation, target maneuver and model errors. Secondly, aiming at zeroing LOS angle tracking error and LOS angle rate in finite time, a nonsingular terminal sliding mode (NTSM) was designed with adaptive exponential reaching law. Furthermore, combining with dynamic surface, which prevented the complex differential of virtual control laws, the fuzzy adaptive systems were designed to approximate observation errors of uncertain disturbances and to reduce chatter of control law. Finally, the adaptive Nussbaum gain function was introduced to compensate nonlinear saturation of canard deflection. The LOS angle tracking error and LOS angle rate were convergent in finite time and whole system states were uniform ultimately bounded, rigorously proven by Lyapunov stability theory. Hardware-in-the-loop simulation (HILS) and digital simulation experiments both showed FADS provided guided projectile with good guidance performance while striking targets with different maneuvering forms. 相似文献