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1.
战斗机电子战系统提供的态势感知、无源攻击引导、电子对抗和主动隐身等作战能力可以极大提升飞机的生存力和杀伤力。为满足电子战系统越来越高的新质作战能力要求、作战对象快速能力提升、贴近实战的作战样式和作战环境不断变化带来的新要求、适应不同战斗机平台及航电任务系统要求等需求,追求高质量和敏捷开发模式,电子战系统架构必须精心设计。采用系统工程方法,按照能力视图、作战视图、系统视图和技术视图对需求和技术进行了迭代研究,基于灵活数字处理算法支持不同战法、全域综合共用、以快应变和以柔制变等顶层设计思想,从全数字化处理、综合化、可扩展和开放式等多个视角论证了电子战系统架构设计需求,并给出了核心设计要点和方案。战斗机电子战系统架构在大量实践中得到验证,效果良好,能够满足作战使用需求,对下一代战斗机电子系统的研究具有借鉴意义。 相似文献
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小型电动无人机通常采用锂电池、无刷电机和螺旋桨组成能源动力系统,飞行过程中锂电池的实际工作电压发生变化,但飞机的总重量不变,其航程航时的估算方法与传统的燃油飞机有所不同。为了准确评估动力系统对飞机设计的影响,建立了以锂电池为动力的电动飞机推进系统模型,通过与实验数据比较,验证了各部分模型的准确性。利用该动力系统模型,对某款小型电动无人机进行了航程和航时估算,结果表明本文的建模方法准确有效,航程航时估算接近实验数据,可作为小型电动无人机设计的重要参考。 相似文献
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当前,传统飞机液压刹车系统普遍采用集中式的机载液压源作为动力,液压能通过能源管路传输到刹车作动器,整个系统零部件数目众多,管路布局复杂,由此带来的管路振动、液压油泄漏等问题突出,限制了飞机刹车系统可靠性和可维护性的提升。近年来,一种飞机新原理电液自馈能刹车系统被提出,将模块化的"自馈能装置"安装在机轮附近,回收机轮着陆时的旋转动能,并将其转换成液压能,用于刹车作动。提出了一种利用波浪曲面进行取能的专用取能机构,设计了自馈能系统紧凑型专用取能机构,研制了高可靠、低能耗、高抗污染的自馈能刹车系统原理样机,完全实现了自馈能,即使飞机失去全部动力也能正常完成刹车功能,使抗污染等级从NAS6级提升到NAS10级,可靠性和可维护性优于传统液压刹车。 相似文献
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Yi Wei Qingjun Li Fangnuan Xu 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(1):393-400
A new orbit-attitude-vibration coupled dynamic model of the tethered solar power satellite (Tethered SPS) is established based on absolute nodal coordinate formulation. The Hamilton’s equation of the system is derived by introducing generalized momentum through Legendre transformation. The correctness of the proposed model is verified by an example. The dynamic characteristics of the Tethered SPS are studied using the symplectic Runge-Kutta method. Simulation results show that the orbital radius and the total energy of the system are well preserved. The attitude of the system is unstable when the mass of the bus system is small. However, the attitude stability is dependent on some other parameters of the system, which requires further studies. It is also found that the average tether force/deformation can be roughly estimated by simplifying the solar panel as a particle. The proposed model can be used to study the orbit-attitude-vibration coupled dynamics and control problems. 相似文献
6.
M. Naim A. Ali Pacha C. Serief 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(7):2077-2103
With the rapid growth of the number of Earth observation satellite (EOS) supporting critical applications, it is required to improve the security techniques to protect the sensitive data and images during the transmission between the satellites and the ground stations. This paper introduces a new satellite image encryption algorithm based on the Linear Feedback Shift Register (LFSR) generator, SHA 512 hash function, hyperchaotic systems, and Josephus problem. LFSR generates a matrix that is used to construct the 512-bits value of the hash function. These bits are used to set the initial values and parameters of the proposed encryption algorithm. Firstly, the six dimensions (6-D) hyperchaotic system is divided into three parts, where every two equations are considered as one part. Secondly, the 1-D hyperchaotic logistic-tent system is considered as the controller to select one part. The selected part is used to generate a matrix that is XORed with the original image. Thirdly, the scrambling operation by Josephus sequences is applied to the output of the previous step by scrambling the rows and the columns according to the selected part to produce the pre-encrypted image. Finally, if the number of iterations is less than the required number which is considered as a parameter of the secret key, the previous operations will be repeated in the pre-encrypted image; otherwise, the pre-encrypted image is considered as the final cipher image. Experimental and analyses results show that the proposed algorithm has good performance in terms of high level of security, large enough key-space, tolerance to Single Event Upsets (SEU) as well as low time complexity. 相似文献
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某型惯性导航系统在飞机上时有故障发生,造成导航系统无法正常使用,其中较为突出的是惯导报53#环境温控故障。为降低该惯导在飞机上的故障率,通过研究环境温控回路的工作原理,解析其故障机理,并以几起典型53#故障的排除为例深入分析,提出有效的预防措施,以延伸修理深度,提高产品修理质量。 相似文献
9.
自主导航是航天器自主运行的核心关键技术。状态估计是实现航天器自主导航的核心手段,是指实时确定航天器在轨位置、速度和姿态等导航参数,是航天器自主导航技术的重点发展方向之一。首先,针对航天器自主导航的实际需求,阐述了研究航天器自主导航状态估计方法的必要性,具体从导航系统可观测性分析、导航滤波算法、导航系统误差补偿3个方面介绍了航天器自主导航状态估计方法的研究现状;然后,分析并总结状态估计方法在航天器自主导航系统中的实际应用;最后,结合理论研究和实际应用,给出了状态估计方法目前存在的主要问题并对其后续发展进行了展望。 相似文献
10.
《中国航空学报》2021,34(10):210-219
In kinematic navigation and positioning, abnormal observations and kinematic model disturbances are one of the key factors affecting the stability and reliability of positioning performance. Generally, robust adaptive filtering algorithm is used to reduce the influence of them on positioning results. However, it is difficult to accurately identify and separate the influence of abnormal observations and kinematic model disturbances on positioning results, especially in the application of kinematic Precise Point Positioning (PPP). This has always been a key factor limiting the performance of conventional robust adaptive filtering algorithms. To address this problem, this paper proposes a two-step robust adaptive filtering algorithm, which includes two filtering steps: without considering the kinematic model information, the first step of filtering only detects the abnormal observations. Based on the filtering results of the first step, the second step makes further detection on the kinematic model disturbances and conducts adaptive processing. Theoretical analysis and experiment results indicate that the two-step robust adaptive filtering algorithm can further enhance the robustness of the filtering against the influence of abnormal observations and kinematic model disturbances on the positioning results. Ultimately, improvement of the stability and reliability of kinematic PPP is significant. 相似文献