| 1. | Experimental investigation of aerodynamic configuration for mavs 微型飞行器相关布局气动特性实验研究 |
| 2. | Miniature wireless data communication system for micro air vehicles 微型飞行器的微型无线数据传输系统 |
| 3. | Attitude tracking control for flapping wing micro aerial vehicle based on feedback compensation 基于反馈补偿的扑翼微型飞行器姿态跟踪控制 |
| 4. | The bionic flying micro - robot is a complicated intelligent robot , i . e . and a micro aerial vehicle 摘要微型仿生扑翼飞行器是一种新概念的微型飞行器。 |
| 5. | According the need of micro craft , a test system was presented which can implement the driving of rotor , set parameters and testing 文章根据微型飞行器的系统需求,设计并完成了一套可以实现旋翼驱动和上层计算机参数设置和控制的测试系统。 |
| 6. | Particularly the navigation system is analyzed in detail in the above discussion . later an autonomous flight control system is designed for a mini unmanned aerial vehicle 接着在此基础上讨论了微型飞行器的自主导航系统,研究采用传统的飞控理论和模糊控制理论来实现自主控制系统。 |
| 7. | Combined with blade element theory , the results can be used to evaluate aerodynamic characteristics of flapping wings , which are helpful for the initial design of micro rotary and flapping wing 运用本文方法分析了各参数对翼型气动特性的影响,进一步结合叶素理论还可以估算扑翼的气动特性,进而指导微旋翼或扑翼微型飞行器的初期设计。 |
| 8. | In this paper micro aerial vehicles are introduced . on the base of the detail discussion of the applications of sensors and components of mav , several schemes of autonomous flight control system are presented 本文先简单介绍了微型飞行器的发展概况,然后阐述微型飞行器的系统结构和气动特性,接着详细讨论微型器件,特别是传感器对微型飞行器的重要性及其应用。 |
| 9. | This paper uses above - mentioned methods to design double - wing mav aerodynamic shapes with normal and robust optimization . results shows robust optimization shapes lost some aerodynamic performance but become more steady 本文采用上述基于代理模型的稳健优化方法对微型飞行器气动外形进行确定性和稳健优化设计,所得结果显示稳健优化结果虽然损失了一些气动性能,但其气动特性变得更加稳健。 |
| 10. | In this paper , fuzzy logic theory is discussed in order to find a better control project for may so first , we should carry through this experiment to acquisite a lot of data which help to create a fuzzy model . second , we should draw a conclusion from so much data 整个系统采用c语言进行程序设计,很大程度上增加了系统的适应性与灵活性。最后,进行了总结,对微型飞行器飞控系统理论的发展提出个人的一些看法和观点。 |