Algorithm for Operational Optimization of Two-Stage Hypersonic Unmanned Aerial Vehicle Branching Path

机译：两阶段高超音速无人机分支路径的作战优化算法

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The algorithm for calculating the path of two-stage hypersonic unmanned aerial vehicle consisting of unmanned carrier aircraft and unmanned orbital aircraft is proposed. Optimal values of phase coordinates and controls at points of structural transformations of the branching path of two-stage hypersonic unmanned aerial vehicle are calculated. The proposed algorithm allows to optimize the path of two-stage hypersonic unmanned aerial vehicle in any section of the path, including the separation phase and initial disengagement of orbital stage from air launch aircraft, taking into account the mutual influence of stages.

机译：提出了由无人航母和轨道飞行器组成的两级高超音速无人机航迹计算算法。计算了两阶段高超音速无人机飞行器分支路径的结构变换点的相位坐标和控制的最优值。考虑到各阶段之间的相互影响，提出的算法可以优化两阶段高超音速无人机在路径的任何部分的路径，包括分离阶段和轨道阶段与空中发射飞机的初始脱离。

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来源
《International Conference on Methods and Systems of Navigation and Motion Control》|2018年|11-15|共5页
会议地点 Kiev(UA)
作者
O. M. Tachinina; O. I. Lysenko; I. V. Alekseeva;
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作者单位

Department of Automation and Energy Management National Aviation University Kyiv Ukraine;

Department of Telecommunication National technical university of Ukraine “Igor Sikorsky Kyiv polytechnic institute” Kyiv Ukraine;

Department of Mathematical Analysis and Probability Theory National technical university of Ukraine “Igor Sikorsky Kyiv polytechnic institute” Kyiv Ukraine;

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关键词
Mathematical model; Reactive power; Unmanned aerial vehicles; Dynamics; Engines; Orbits; Optimization;

机译：数学模型;无功功率；无人机动力学;引擎;轨道优化;

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专利

1. Unmanned Aerial Vehicle Path Following: A Survey and Analysis of Algorithms for Fixed-Wing Unmanned Aerial Vehicless [J] . Sujit P., Saripalli S., Sousa J. Control Systems, IEEE . 2014,第1期

机译：无人机航迹跟踪：固定翼无人机的算法调查与分析
2. A novel hybrid grey wolf optimizer algorithm for unmanned aerial vehicle (UAV) path planning [J] . Qu Chengzhi, Gai Wendong, Zhang Jing, Knowledge-Based Systems . 2020,第Apra22期

机译：一种新型空中航空公司（UAV）路径规划的新型混合灰狼优化算法
3. A novel reinforcement learning based grey wolf optimizer algorithm for unmanned aerial vehicles (UAVs) path planning [J] . Applied Soft Computing . 2020,第期

机译：一种新型加固基于灰狼优化算法，无人驾驶飞行器（无人机）路径规划
4. Algorithm for Operational Optimization of Two-Stage Hypersonic Unmanned Aerial Vehicle Branching Path [C] . O. M. Tachinina, O. I. Lysenko, I. V. Alekseeva International Conference on Methods and Systems of Navigation and Motion Control . 2018

机译：两阶段超声无人空中航空公司支行路径运行优化算法
5. Contributions to the conception of an operational system for real time path planning for Unmanned Aerial Vehicles [D] . Roberge, Vincent Remi 2011

机译：对用于无人机实时路径规划的操作系统的概念做出了贡献
6. An Improved Artificial Bee Colony Algorithm Based on Balance-Evolution Strategy for Unmanned Combat Aerial Vehicle Path Planning [O] . Bai Li, Li-gang Gong, Wen-lun Yang -1

机译：基于平衡进化策略的改进人工蜂群算法在无人战斗机路径规划中的应用
7. AUTONOMOUS UNMANNED AERIAL VEHICLE FLIGHT ACCURACY EVALUATION FOR THREE DIFFERENT PATH-TRACKING ALGORITHMS [O] . Ramūnas Kikutis, Jonas Stankūnas, Darius Rudinskas 2019

机译：三种不同路径跟踪算法的自主无人驾驶飞行准确性评估

Algorithm for Operational Optimization of Two-Stage Hypersonic Unmanned Aerial Vehicle Branching Path

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