| 1. | Biological potential in plant and external electrostatic field
飞机沉积静电与飞行环境的关系人体静电 |
| 2. | The focuses of this paper are on flight environment simulation and high span - chord ratio uav model
本文的工作就是围绕飞行环境模拟和无人机动力学仿真展开。 |
| 3. | The control system can monitor the flying simulation process real - time and change the flying environment parameters in correct time
通过控制台系统可实时监控飞行仿真全过程,适时改变飞行环境参数。 |
| 4. | Based on this , it establishes and enriches the 3d scene , which makes the flight environment of the uav like true world
在此基础上,建立和渲染整个无人机任务飞行的三维场景,使无人机的飞行环境贴近真实世界。 |
| 5. | Thirdly , two important problems , 3d modeling and the relation of aircraft pose with visual angle , are specifically anglicized
第三部分:详细研究了飞行环境仿真系统中的两个关键问题:三维物体建模和视点的切换控制。 |
| 6. | To simulate the real running condition of the program on board , the flight simulation software simulates space environment and sends date to the program
飞行仿真程序模拟飞行环境,向星上程序发送模拟数据,测试星上程序的运行情况。 |
| 7. | In view of the development of computer technology , it is feasible to simulate a helicopter , flight environment and control system designing by computer
从计算机技术的发展情况来看,利用计算机模拟一架直升机、飞行环境以及控制系统设计是完全可能的。 |
| 8. | To counter the specialities of complex working circumstance and high agility , this dissertation gives a pilot study on the mini uav ' s measurement and control system
本文针对微型无人飞行器飞行环境复杂、灵活性高的特点,就基于嵌入式linux的微型无人飞行器测控系统进行了初步的研究。 |
| 9. | There are six functional modules : data management and analysis , orbit and attitude simulation , space environment simulation , ground station simulation , data communication and real - time animation
软件按功能分为六个模块:数据管理与分析、轨道姿态模拟、飞行环境模拟、地面站模拟、数据通讯和实时动画显示。 |
| 10. | Because of the long distance of exploration targets and the non - determinacy of flight environment in deep space exploration , a key problem proposed is how to control and operate the deep space explorer reliably and in real time
深空探测由于探测目标距离远,飞行环境不确定等因素,给探测器的控制和操作带来了实时性和可靠性的问题。 |
