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APPLICATION OF HYBRID AERO-ENGINE MODEL FOR INTEGRATED FLIGHT/PROPULSION OPTIMAL CONTROL 被引量:4
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作者 王健康 张海波 +1 位作者 孙健国 李永进 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI 2012年第1期16-24,共9页
The real-time capability of integrated flight/propulsion optimal control (IFPOC) is studied. An appli- cation is proposed for IFPOC by combining the onboard hybrid aero-engine model with sequential quadratic pro- gr... The real-time capability of integrated flight/propulsion optimal control (IFPOC) is studied. An appli- cation is proposed for IFPOC by combining the onboard hybrid aero-engine model with sequential quadratic pro- gramming (SQP). Firstly, a steady-state hybrid aero-engine model is designed in the whole flight envelope with a dramatic enhancement of real-time capability. Secondly, the aero-engine performance seeking control including the maximum thrust mode and the minimum fuel-consumption mode is performed by SQP. Finally, digital simu- lations for cruise and accelerating flight are carried out. Results show that the proposed method improves real- time capability considerably with satisfactory effectiveness of optimization. 展开更多
关键词 integrated flight/propulsion optimal control AERO-ENGINE hybrid model performance seeking con- trol sequential quadratic programming
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THE EIGENVALUE SENSITIVITY ANALYSIS AND DESIGN FOR INTEGRATED FLIGHT/PROPULSION CONTROL SYSTEM
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作者 Shen Gongzhang, Chen Zongji and Peng KemaoBeijing University of Aeronautics and Astronautics 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 1990年第4期277-284,共8页
In this paper, sensitivity approaches are taken to analyze and design an integrated flight propulsion control system where the interaction between subsystems direitly affects the stability property and handling perfor... In this paper, sensitivity approaches are taken to analyze and design an integrated flight propulsion control system where the interaction between subsystems direitly affects the stability property and handling performances of the aircraft. The eigenvalue sen sitivity approach is employed to study the effect of coupling parameters on system stability and gain sensitivity approach is used to direct the reduced states feedback suboptimal control system design. Simulation results show that the integrated flight propulsion control system designed by sensitivity approaches is of good performance. 展开更多
关键词 THE EIGENVALUE SENSITIVITY ANALYSIS AND DESIGN FOR integrated flight/propulsion CONTROL SYSTEM SIMULATION
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HIERARCHICAL APPROACH AND ITS APPLICATION TO INTEGRATED FLIGHT/PROPULSION CONTROL SYSTEM 被引量:1
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作者 Roan Hongning Shi Zhongke(Department of Automatic Control, Northwestern PolytechnicalUniversity, Xi’an, Chiana, 710072) 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 1996年第4期284-288,共5页
A new model and design method for integrated flight/propulsion control system are presented. To avoid solving higher order Riccati equations, a hierarchical optimization method is developed based on structure perturba... A new model and design method for integrated flight/propulsion control system are presented. To avoid solving higher order Riccati equations, a hierarchical optimization method is developed based on structure perturbation. In the new method, designing of a linear (luadrate regulator (LQR) is divided into two steps: (1 ) computingfeedback gain matrix of individual subsystem, while the association among these subsystems is omittd, and (2) according to the optimization method of LoR, computing thecompensation gain matrix for each subsystem using input perturbation approach. Simulation and application show that not only the results of the new method is as good as that ofan ordinary LQR, but also the efficiency is much higher than that of LQR. 展开更多
关键词 flight control propulsion CONTROL PERTURBATION
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FLIGHT/THRUST INTEGRATED CONTROL USINGH∞SYNTHESIS IN AUTOMATIC CARRIER LANDING 被引量:2
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作者 YuYong YangYidong DaiShijun 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI 2002年第1期31-36,共6页
The landing task of an aircraft under low aerodynamic pressure on carrier requires precise airplane control,A flight/thrust integrated control system(FTICS)with constant ad,actual angle of attack,is developed using LM... The landing task of an aircraft under low aerodynamic pressure on carrier requires precise airplane control,A flight/thrust integrated control system(FTICS)with constant ad,actual angle of attack,is developed using LMI-based H∞synthesis.The typical single input/outputspecifications are translated into the weighting functions of an H∞output-feedback synthesis problem.The motiva-tion of the work is to improve the key performance of dy-namic tracking and air disturbance attenuation.The FTICS can keep the attitude andgle and the path angle un-changeable as the airplane is passing through the ramp at which the tracking radar doesnot work and the guidance signal is terminated.For engineering application,an or-der-reduction method of the H∞controller is also pro-posed,Simulational results indicate that the system satis-fies the design requirements quite well. 展开更多
关键词 flight/thrust integrated CONTROL H∞synthe-sis linear matrix INEQUALITY flight CONTROL system carrier-based aircraft 飞行控制 鲁棒控制 自动驾驶着陆系统 线性矩阵不等式 舰载飞机 推力控制 设计
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Experimental study on integral axial squeeze film damper to suppress longitudinal vibration of propulsion shafting
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作者 Fan Wenqiang He Lidong +3 位作者 Jia Xingyun Yan Wei Zhu Gang Wang Jian 《High Technology Letters》 EI CAS 2021年第1期76-85,共10页
This paper aims at investigating the effectiveness of squeeze oil film in suppressing the longitudinal vibration of propulsion shaft systems through a novel integral axial squeeze film damper(IASFD).After designing th... This paper aims at investigating the effectiveness of squeeze oil film in suppressing the longitudinal vibration of propulsion shaft systems through a novel integral axial squeeze film damper(IASFD).After designing the IASFD,a propulsion shafting test rig for the longitudinal vibration control is built.Longitudinal vibration control experiments of the propulsion shafting are carried out under different magnitude and frequency of the excitation force.The results show that both IASFD elastic support and IASFD elastic damping support have excellent vibration attenuation characteristics,and can effectively suppress the longitudinal vibration of the shaft system in a wide frequency range.However,IASFD elastic damping support has a more significant vibration reduction effect than the other supports,and increasing the damping of the system has obvious effect on reducing the shafting vibration.For an excitation force of 45 N,the maximum reduction of the vibration amplitude is 89.16%.Also,the vibration generated by the resonance phenomenon is also significantly reduced. 展开更多
关键词 integral axial squeeze film damper(IASFD) propulsion shafting longitudinal vibration vibration damping
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Study on High Power Hall Electric Propulsion Technology 被引量:3
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作者 HANG Guanrong ZHAO Zhen +7 位作者 YU Shuilin QIAO Caixia LIU Jia HUANG Hao TIAN Leichao LI Lin LI Wenshuai KANG Xiaolu 《Aerospace China》 2020年第2期31-38,共8页
High power Hall electric propulsion technology is a very competitive electric propulsion technology for future large space missions such as large GEO satellites,manned space programs,deep space explorations,cargo ship... High power Hall electric propulsion technology is a very competitive electric propulsion technology for future large space missions such as large GEO satellites,manned space programs,deep space explorations,cargo ships,space tugs.Based on the experience of more than 20 years in research and development of Hall electric propulsion,the Shanghai Institute of Space Propulsion(SISP)has developed 3 high power Hall thrusters,i.e.,the 10 k W class HET-500,20 k W class HET-1000,and 50 k W class HET-3000.This paper presents the development status of the high power(≥10 k W)Hall electric propulsion at SISP,including tests of 3 high power Hall thrusters in the power range from 10 k W to 50 k W,the qualification of a single string of a 10 k W Hall electric propulsion system,and the study of a cluster of two 1.35 k W HET-80 Hall thrusters to understand the technical issues related to multi-thruster high power electric propulsion systems. 展开更多
关键词 high power Hall electric propulsion Hall thruster single string system integration thruster cluster
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Novel Ship Propulsion System
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作者 JI Yulong SUN Yuqing ZHANG Hongpeng ZHANG Yindong CHEN Haiquan 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2009年第2期198-206,共9页
As the development tends towards high-speed, large-scale and high-power, power of the ship main engine becomes larger and larger. This make the engine design and cabin arrangement become more and more difficult. Ship ... As the development tends towards high-speed, large-scale and high-power, power of the ship main engine becomes larger and larger. This make the engine design and cabin arrangement become more and more difficult. Ship maneuverability becomes bad. A new ship propulsion system, integrated hydraulic propulsion (IHP), is put forward to meet the development of modem ship. Principle of IHP system is discussed. Working condition matching characteristic of IHP ship is studied based on its matching characteristic charts. According to their propulsion principle, dynamic mathematic models of IHP ship and direct propulsion (DP) ship are developed. These two models are verified by test sailing and test stand data. Based on the software Matlab/Simulink, comparison research between IHP ship and DP ship is conducted. The results show that cabin arrangement of IHP ship is very flexible, working condition matching characteristic of IHP ship is good, the ratio of power to weight of IHP ship is larger than DP ship, and maneuverability is excellent. IHP system is suitable for engineering ship, superpower ship and warship, etc. 展开更多
关键词 SHIP integrated hydraulic propulsion (IHP) ship propulsion system modeling and simulation working condition matching characteristic
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Numerical study of attack angle characteristics for integrated hypersonic vehicle 被引量:2
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作者 黄伟 王振国 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI 2009年第6期779-786,共8页
The two-dimensional coupled implicit Navier-Stokes equations and standard k-ε viscous models are used to simulate the angle of attack characteristics of an inte- grated hypersonic vehicle with a hark head configurati... The two-dimensional coupled implicit Navier-Stokes equations and standard k-ε viscous models are used to simulate the angle of attack characteristics of an inte- grated hypersonic vehicle with a hark head configuration under three kinds of working conditions: inlet cut-off, engine through-flow, and engine ignition. Influence of each com- ponent on aero-propulsive performance of the vehicle is discussed. It is concluded that the longitudinal static stability of the vehicle is good, and there is enough lift-to-drag ratio to satisfy the flying requirement of the vehicle. At the same time, it is important to change configurations of engine and upper surface of airframe to improve aero-propulsive ~erformance of the vehicle. 展开更多
关键词 integrated hypersonic vehicle properties of attack angle component anal-ysis computer simulation hark head configuration aero-propulsive performance
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Geometrically compatible integrated design method for conformal rotor and nacelle of distributed propulsion tilt-wing UAV
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作者 Cheng HE Gang CHEN +2 位作者 Xue SUN Shuangfei LI Yang LI 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2023年第10期229-245,共17页
The inner rotors of distributed propulsion tilt-wing Unmanned Aerial Vehicles(UAVs)are often folded in the cruising state and deployed in vertical take-off and landing to cope with the huge difference in thrust requir... The inner rotors of distributed propulsion tilt-wing Unmanned Aerial Vehicles(UAVs)are often folded in the cruising state and deployed in vertical take-off and landing to cope with the huge difference in thrust requirements.However,the blades of the conventional rotor have poor conformality with the nacelle profile,which will greatly increase the drag of the UAV after folding.This paper proposes an integrated method for the design of rotor and nacelle considering geometric compatibility to reduce the drag of the folded rotor and nacelle,so as to further improve the aerodynamic efficiency in cruise while ensuring the rotor efficiency in the vertical flight mode.A geometric mapping model based on nacelle design parameters and rotor design parameters is established,and a parametric model and aerodynamic optimization model of the outer arc airfoil family are developed.In addition,a rotor performance analysis model and a neural network response surface model for nacelle drag prediction that meet the requirements of confidence level are established.Based on the oblique inflow blade element momentum theory method,numerical simulation method,and genetic algorithm,an integrated optimization framework of the design of the conformal rotor and nacelle is built.Then,a geometrically compatible integrated optimization for the rotor and nacelle is carried out with the objective of maximizing energy efficiency in the full mission profile.Finally,a conformal rotor and nacelle design solution is obtained,which satisfies geometric compatibility and thrust constraints while providing high thrust efficiency and low cruising drag.A comparison of the results of the integrated design and the conventional rotor optimization design shows that the drag of the conventional rotor is 3.45 times that of the conformal integrated design in the cruising state,which proves the effectiveness and necessity of the proposed method. 展开更多
关键词 Distributed propulsion Geometric compatibility integrated design NACELLE ROTOR Tilt-wing UAV
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基于集成DEMATEL-ISM的民航飞行安全风险影响因素研究 被引量:1
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作者 徐佳 刘宗芹 +1 位作者 周卓丹 林雍雅 《科技和产业》 2024年第6期200-206,共7页
航空安全是民航发展的生命线,飞行安全风险研究是飞行安全分析的重要内容,飞行安全风险影响因素的研究是飞行安全风险研究的重要基础。为研究民航飞行安全风险影响因素,在构建飞行安全风险评价指标体系的基础上,采用决策式实验分析法和... 航空安全是民航发展的生命线,飞行安全风险研究是飞行安全分析的重要内容,飞行安全风险影响因素的研究是飞行安全风险研究的重要基础。为研究民航飞行安全风险影响因素,在构建飞行安全风险评价指标体系的基础上,采用决策式实验分析法和解释结构模型联合法(decision-making trial and evaluation laboratory-interpretative structural modeling method,DEMATEL-ISM)的算法构建飞行安全风险影响因素模型,对因素的属性、重要度、作用机理等进行深入分析,建立系统性的多级递阶结构模型。最后通过算例编程仿真实现,对结果深入分析与研究,探讨其实际应用价值,证明该方法的可行性和有效性,该方法可以为飞行安全风险管理提供决策帮助和理论指导,有助于提升飞行安全管理水平。 展开更多
关键词 飞行安全风险 飞行安全风险影响因素 DEMATEL ISM 集成DEMATEL-ISM
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一种组合动力飞行器模态转换过程轨迹优化与控制方案
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作者 刘凯 张永亮 聂聆聪 《宇航学报》 EI CAS CSCD 北大核心 2024年第3期443-451,共9页
为应对组合动力飞行器涡轮/冲压发动机模态转换过程中容易出现的推力陷阱问题,开展了组合动力飞行器模态转换阶段飞行/推进一体化保护控制研究。该研究利用组合动力爬升段飞行轨迹优化方法,解决模态转换过程中组合发动机总推力无法满足... 为应对组合动力飞行器涡轮/冲压发动机模态转换过程中容易出现的推力陷阱问题,开展了组合动力飞行器模态转换阶段飞行/推进一体化保护控制研究。该研究利用组合动力爬升段飞行轨迹优化方法,解决模态转换过程中组合发动机总推力无法满足平飞加速需求的推力陷阱问题。结合轨迹线性化控制方法,完成了宽速域飞行器/发动机一体化轨迹跟踪控制设计,利用迎角、油门等变量的协同调节实现轨迹跟踪控制。仿真结果表明,轨迹优化策略能够在一定程度上克服模态转换过程中的推力不足问题,一体化轨迹线性化控制方法可以有效实现爬升轨迹跟踪,避免模态转换过程对组合动力飞行器飞行任务造成的不利影响。 展开更多
关键词 宽速域飞行器 涡轮/冲压发动机 飞行/推进一体化控制 轨迹优化 轨迹跟踪控制
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循证训练理念下签派员技能全生命周期全动模拟机融合训练研究 被引量:1
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作者 张序 《科技和产业》 2024年第7期113-116,共4页
为了培养高素质签派员队伍,借鉴飞行员技能全生命周期管理(PLM)体系建设相关理论,结合试点开展的“飞行员-签派员”融合训练,梳理其实施的可行性和必要性,探索签派员整个职业生涯岗位胜任力提升的实施路径。基于循证训练(EBT)理念总结... 为了培养高素质签派员队伍,借鉴飞行员技能全生命周期管理(PLM)体系建设相关理论,结合试点开展的“飞行员-签派员”融合训练,梳理其实施的可行性和必要性,探索签派员整个职业生涯岗位胜任力提升的实施路径。基于循证训练(EBT)理念总结“飞行员-签派员”融合训练的保障机制,为优化签派员训练模式提供参考。 展开更多
关键词 循证训练(EBT) 技能全生命周期管理(PLM) 签派员 全动模拟机 融合训练
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基于DPPM的激光雷达通信测距一体化方案
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作者 曹明华 邓浩 +2 位作者 张悦 张霞 姚瑞芳 《光通信技术》 北大核心 2024年第5期1-7,共7页
针对激光雷达系统建设成本高和测量精度低的问题,提出了一种基于差分脉冲位置调制(DPPM)的激光雷达通信测距一体化方案。该方案通过使用DPPM的不同脉冲时隙位置来表示通信和测距帧信息。接收机可以根据脉冲时隙位置解调出通信信号,并通... 针对激光雷达系统建设成本高和测量精度低的问题,提出了一种基于差分脉冲位置调制(DPPM)的激光雷达通信测距一体化方案。该方案通过使用DPPM的不同脉冲时隙位置来表示通信和测距帧信息。接收机可以根据脉冲时隙位置解调出通信信号,并通过飞行时间测距模块实现测距功能。此外,为了应对回波信号的低信噪比(SNR)问题,使用脉冲累加算法对回波信号进行组帧处理以提高回波信号的SNR。最终,通过现场可编程门阵列(FPGA)搭建了该通信测距一体化系统并进行了测试。实验结果表明:该系统不仅能在300 cm的范围内实现平均测距误差为±2.04 cm的测距功能,而且还能同时达到5 Mb/s的通信速率。 展开更多
关键词 差分脉冲位置调制 激光雷达 通信测距一体化 飞行时间法
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空地一体化测绘多无人机飞行协同控制方法
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作者 刘锋 刘鹏 《科技通报》 2024年第10期21-24,共4页
针对多无人机在协同编队飞行过程中通信信息利用率低,导致无人机轨迹规划效果差、效率低等问题,本文提出了一种空地一体化测绘多无人机飞行协同控制方法。利用A*算法改进一致性算法,对多个共同飞行的无人机实行任务分配,通过改进的一致... 针对多无人机在协同编队飞行过程中通信信息利用率低,导致无人机轨迹规划效果差、效率低等问题,本文提出了一种空地一体化测绘多无人机飞行协同控制方法。利用A*算法改进一致性算法,对多个共同飞行的无人机实行任务分配,通过改进的一致性算法实行轨迹规划。根据无人机航向角、飞行高度和速度等信息,对无人机进行编队控制,实现多无人机飞行协同控制。实验结果表明:所提方法避障效果较优,适用于各类对多无人机控制精度要求较高的工作。 展开更多
关键词 空地一体化 多无人机飞行 协同控制 任务分配 轨迹规划
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项目综合管理策略在重症监护病房耐甲氧西林金黄色葡萄球菌感染防控中的应用
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作者 兰天 刘金禄 +5 位作者 袁二伟 高晶 李宝亮 贾倩 曹亮 温红梅 《河北北方学院学报(自然科学版)》 2024年第10期23-27,共5页
目的 探讨项目综合管理策略在重症监护病房(ICU)落实耐甲氧西林金黄色葡萄球菌(methicillin-resistant Staphylococcus aureus,MRSA)感染防控措施中的应用效果,为降低MRSA医院感染发生率提供循证依据。方法 选取2020-01-2021-12月某三... 目的 探讨项目综合管理策略在重症监护病房(ICU)落实耐甲氧西林金黄色葡萄球菌(methicillin-resistant Staphylococcus aureus,MRSA)感染防控措施中的应用效果,为降低MRSA医院感染发生率提供循证依据。方法 选取2020-01-2021-12月某三甲医院5个ICU中住院患者送检标本并经微生物培养分离出MRSA的患者为研究对象。2020年为基线调查,2021年实施项目综合管理策略。比较干预前后各项防控措施落实执行情况、手卫生依从性、患者MRSA检出情况和MRSA检出科室分布情况。结果 实施项目综合干预管理策略后,MRSA防控措施的落实情况优于干预前,差异有统计学意义(P<0.05)。各类人员手卫生依从性均有提高,差异有统计学意义(P<0.05)。干预后患者MRSA检出率由35.71%降至27.73%。MRSA检出科室分布情况显示除呼吸内科ICU持平,其他ICU检出率均下降。结论 项目综合管理策略提高了MRSA感染防控措施的执行力和有效性,降低了MRSA检出率,减少了患者感染MRSA的风险,可保障医疗安全。 展开更多
关键词 项目综合管理 耐甲氧西林金黄色葡萄球菌 医院感染 飞行检查 预警机制 重症监护病房
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倾转动力无人机三维过渡走廊
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作者 夏济宇 周洲 +1 位作者 王正平 王睿 《北京航空航天大学学报》 EI CAS CSCD 北大核心 2024年第3期886-895,共10页
为解决传统过渡走廊中忽略系统动态特征、缺少迎角信息、难以直接用于过渡路径规划的问题,提出一种适用于倾转动力类无人机的三维过渡走廊建立方法。所提方法从物理约束角度限制飞行速度与倾转角度边界,从飞行力学角度限制全机升力特性... 为解决传统过渡走廊中忽略系统动态特征、缺少迎角信息、难以直接用于过渡路径规划的问题,提出一种适用于倾转动力类无人机的三维过渡走廊建立方法。所提方法从物理约束角度限制飞行速度与倾转角度边界,从飞行力学角度限制全机升力特性边界,从能源配置角度限制动力系统功率边界,从而建立关于飞行速度、倾转角度与迎角的三维过渡走廊,并且设计综合性能指标函数用于描述走廊内各飞行路径点的性能。基于所建三维过渡走廊采用鸽群优化算法完成最优过渡路径的搜索工作。结果表明:所建三维过渡走廊能够更加具体地描述可用飞行范围,其不仅包括传统过渡走廊的飞行速度与倾转角度,同时还包含迎角与性能指标信息,这为过渡路径规划提供基础;鸽群优化算法具有良好的过渡路径优化能力,通过优化使无人机拥有良好的飞行效果,动力系统油门杆量变化平稳、幅值较小,证明使用三维过渡走廊指导过渡飞行与规划过渡路径的可行性。 展开更多
关键词 倾转动力无人机 气动力模型 飞行包线 三维过渡走廊 鸽群优化算法 过渡路径
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主动噪声控制技术在涡扇飞机飞行试验中的应用研究 被引量:2
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作者 郝彩凤 康玉莹 +1 位作者 赵华勇 庞立红 《民用飞机设计与研究》 2024年第1期79-85,共7页
为研究主动噪声控制技术在涡扇飞机真实飞行环境下的作用效果,基于自适应滤波算法设计了一套主动降噪系统,并在与航线飞机舱内环境完全相同的试飞机上集成安装,挑选航线爬升和不同巡航高度典型飞行试验工况开展试飞试验,通过对试飞数据... 为研究主动噪声控制技术在涡扇飞机真实飞行环境下的作用效果,基于自适应滤波算法设计了一套主动降噪系统,并在与航线飞机舱内环境完全相同的试飞机上集成安装,挑选航线爬升和不同巡航高度典型飞行试验工况开展试飞试验,通过对试飞数据的分析结果表明:在飞机复杂的飞行环境及舱内声场环境下,主动降噪系统在目标降噪区域仍有明显的降噪效果,且降噪效果与基础噪声有较大的关系,通常是往空间噪声声压级趋于一致的方向调整,基础噪声越大,降噪效果越好;且对低频的噪声控制效果更为稳定,效果更好;并对主动降噪系统在涡扇飞机上的布局方案形成指导建议。 展开更多
关键词 涡扇飞机 主动降噪 飞行试验 集成安装
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35 K空间深低温热传输系统性能天地差异
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作者 郭元东 刘思学 +3 位作者 张红星 苗建印 赵建福 林贵平 《空间科学学报》 CAS CSCD 北大核心 2024年第1期114-121,共8页
为了解决空间红外探测系统的深低温散热问题,保证红外探测器的低温工作环境,基于脉冲管制冷机和深冷环路热管,设计研制了一套35 K温区的深低温获取与热传输集成系统.该系统由一套35 K温区氖工质深冷环路热管、两台35 K温区脉冲管制冷机... 为了解决空间红外探测系统的深低温散热问题,保证红外探测器的低温工作环境,基于脉冲管制冷机和深冷环路热管,设计研制了一套35 K温区的深低温获取与热传输集成系统.该系统由一套35 K温区氖工质深冷环路热管、两台35 K温区脉冲管制冷机、一台150 K温区脉冲管制冷机、隔热冷屏、测温/加热组件、控制系统等组成.完成了地面单机级、整星级热真空测试,并于2020年完成空间飞行测试.在地面单机试验中开展了水平姿态和逆重力恶劣姿态下的传热测试,保证了空间微重力下必定能稳定工作;整星级测试验证了系统在卫星平台散热工况下的工作特性,空间飞行测试获得了系统的空间微重力下的工作性能.本文分析了系统在上述不同阶段的热性能,包括超临界启动特性,稳态运行性能等,验证了相关设计的正确性,重点对比了不同阶段的性能差异,分析其可能的原因. 展开更多
关键词 深低温集成系统 环路热管 脉冲管制冷机 传热性能 飞行试验
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巡飞弹航迹规划与飞行控制方法发展
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作者 彭滢青 张洪波 +1 位作者 周祥 汤国建 《火力与指挥控制》 CSCD 北大核心 2024年第6期8-16,23,共10页
巡飞弹是无人机技术与弹药技术结合的产物,可实现战场态势感知、精确打击、信息支援等功能,是未来信息化作战的重要武器之一。介绍巡飞弹的定义组成、分类方法、作战功能、型号发展、战场应用等情况;阐述巡飞弹航迹规划方法的发展现状... 巡飞弹是无人机技术与弹药技术结合的产物,可实现战场态势感知、精确打击、信息支援等功能,是未来信息化作战的重要武器之一。介绍巡飞弹的定义组成、分类方法、作战功能、型号发展、战场应用等情况;阐述巡飞弹航迹规划方法的发展现状和未来趋势,包括传统规划方法、智能规划算法和集群规划算法等;对巡飞弹飞行控制的关键技术,包括制导、姿控和导航技术的发展现状和未来趋势进行了介绍,其中的制导技术包括巡飞段跟踪制导、俯冲段末制导和多弹协同制导等;展望了巡飞弹未来的发展方向。 展开更多
关键词 巡飞弹 航迹规划 飞行控制 制导与姿控 组合导航 发展趋势
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基于FlightGear的综合航电主飞行显示器设计 被引量:1
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作者 彭卫东 廖文宇 +1 位作者 张熙 魏麟 《航空计算技术》 2018年第1期87-90,共4页
综合航空电子显示系统作为传统机械式飞行仪表的替代,以数字化、集成化形式提供大量飞行信息。为满足某型通航飞行品质监控平台的需求,应用AC3D软件建立了综合航电主飞行显示器模型;在FlightGear视景系统框架上,完成了基于XML文档的模... 综合航空电子显示系统作为传统机械式飞行仪表的替代,以数字化、集成化形式提供大量飞行信息。为满足某型通航飞行品质监控平台的需求,应用AC3D软件建立了综合航电主飞行显示器模型;在FlightGear视景系统框架上,完成了基于XML文档的模型驱动开发;借助FlightGear外部数据I/O接口输入飞行数据,实现了飞行数据的数字化、综合化显示。仿真实验证明,显示器界面逼真,能直观地反映飞行过程中的相关参数,实现飞行状态的复现。 展开更多
关键词 飞行仪表 综合航电 主飞行显示器 飞行数据
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