1) Unmanned Aerial Vehicle
无人飞行器
1.
An evolutionary computation method is utilized to design a hierarchical and off-line path planner for multiple Unmanned Aerial Vehicles(UAV) coordinated navigation in known static environments.
提出了一种在已知静态环境下利用进化计算实现多无人飞行器的分层离线协同航迹规划方法。
2.
This paper deals with the task assignment for a fleet of unmanned aerial vehicles(UAVs).
探讨了无人飞行器(UAV)编队的任务分配问题。
2) UAV
无人飞行器
1.
Study of Cooperative Operation Effectiveness for UAV with Escort Free-Flight Decoys;
伴飞诱饵支援条件下无人飞行器协同作战效能研究
2.
Evolutionary Algorithm Based Path Planning for UAVs;
基于进化算法的无人飞行器路径规划研究
3.
Design of a small UAV ground tracking system;
一种小型无人飞行器地面跟踪系统设计
3) unmanned air vehicle
无人飞行器
1.
Research on Methodology of Route Planning and Task Assignment for Unmanned Air Vehicles;
无人飞行器航迹规划与任务分配方法研究
2.
This paper introduces the measurement and control system of unmanned air vehicle such as software and hardware,primary functions and characteristics of technology.
介绍了无人飞行器测控信息管理系统的软硬件组成、主要功能及其技术特点,探讨了系统主要关键技术,给出了测控信息实时接收的主要步骤和函数,推导出了计划航线自动生成算法。
4) Unmanned vehicles
无人飞行器
1.
Trajectory planning for unmanned vehicles based on receding horizon optimazation;
基于滚动时域优化的无人飞行器轨迹规划
6) Unmanned Aerial Vehicle(UAV)
无人飞行器
1.
For long endurance small unmanned aerial vehicle(UAV) engines that expend large amount of fuel and in cases of specified length of flight at invariable altitudes and velocity,a math model of piston engine fuel consumption is set up.
针对长航时小型无人飞行器燃油消耗量大的特点,在指定航时并保证等高度等速度飞行的情况下,建立了活塞式螺旋桨发动机最小燃油消耗的数学模型;考虑几何外形及气动、结构、质量等之间的耦合关系,以飞行器初始质量最小为优化目标,基于多学科集成优化平台ModelCenter,利用遗传算法实现了飞行器总体参数的优化设计。
2.
According to the strict aerodynamic heating and force environment,which had the characters of strong uncertainty of flight parameters and structure,the planning and optimization of multi-constraints trajectory were studied for high-dynamic unmanned aerial vehicle(UAV).
针对高动态无人飞行器的飞行环境中,气动力、气动热条件苛刻,飞行参数和结构变化剧烈的特点,研究了多约束条件下的轨迹规划与设计方法。
补充资料:复杂气象飞行(见飞行技术)
复杂气象飞行(见飞行技术)
instrument meteorological conditions flight
fuza qixiangfe主xing复杂气象飞行(instrument meteorologiealconditions flight)见飞行技术。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条