基于在线神经网络设计了无人机着陆飞行自适应逆控制器。
A self adaptive inversion controller for UAV landing based on on-line neural network is designed in this paper.
最后把自适应逆控制器用于无人机的着陆以验证该控制器的有效性。
This method to control the landing of UAV with adaptive inverse controller is effective by test.
针对飞翼无人机的特性,利用侧航法和侧滑法设计了侧风着陆控制系统,仿真了系统抗侧风干扰的能力并进行了对比分析。
Based on the characteristics of flying wing UAVs, crosswind landing control systems were designed through the crabbed method and the side-slipping method.
根据该公司介绍,此无人机配有一个带有8个螺旋桨的多转子系统,即使多个系统失效,也可提供更优途径使其安全着陆。
According to the company, the drone is equipped with a multi-rotor system with 8 propellors, giving better odds to safely land even if multiple systems fail.
如果运用于GPS辅助无人机获取的图象分析,可实现实时对地定位和基于视觉的导航、着陆等。
The new method can be applied to the analysis of GPS- supported image sequence to real - time positioning and vision - based navigation and landing.
该公司提出了一项系统专利,该系统将允许无人机从空中投递包裹,并用小型降落伞引导着包裹安全着陆。
The company has filed a patent for a system that would allow drones to drop packages from the sky, and guide them to a safe landing spot using tiny parachutes.
无人机能够试点后,在预定的飞行路径,甚至已经完成自动起飞和着陆机动能力。
The drone is capable of following the pilot, following a predetermined flight path, and even has the ability to perform automatic take-off and landing maneuvers.
这项专利说明了无人机是如何根据想要的着陆地点来改变应用在包裹上的力量。
The patent describes how the drone could alter the force applied to the package, depending on where it wanted the package to land.
介绍了将DMC - PID串级控制技术应用到无人机无动力飞行时的自动着陆阶段迎角自动控制系统。
DMC-PID bunches control technology in the Angle of attack automatic control system during unpowered flying automatic landing period is introduced.
此前,荷兰警方曾尝试远程干预无人机操作系统,迫使其自动着陆,但结果却事与愿违,因为无人机很容易彻底失控。
The Dutch police were looking at tech-based solutions like remotely taking control of drone operating systems, but forcing a drone to autoland could backfire as it could go completely out of control.
这架无人机完全自主航行,从起飞到着陆只需凭借传感器和电脑即可完成。
The UAV is completely autonomous, relying on sensors and computers to navigate from take off to landing.
这架无人机完全自主航行,从起飞到着陆只需凭借传感器和电脑即可完成。
The UAV is completely autonomous, relying on sensors and computers to navigate from take off to landing.
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