1.
The bionic flying micro-robot is a complicated intelligent robot, i. e. and a micro aerial vehicle.
微型仿生扑翼飞行器是一种新概念的微型飞行器。
2.
Status and prospects of driving mode about the wing for the bionics flapping aerocraft
仿生扑翼飞行器翅翼驱动方式的研究现状及展望
3.
The Design Technologies of Biomimetic Wings for Flapping-Wing MAVs;
微型扑翼飞行器的仿生翼设计技术研究
4.
The Design of Flapping-Wing Mechanism and Its Dynamic Simulation and Analysis for a Bionic Flapping-Wing Micro Air Vehicle;
仿生微扑翼飞行器扑翼机构的设计及其动态模拟和分析
5.
Finite Element Analysis on Wings of Flapping-Wing Micro Air Vehicles Based on Dragonfly Wings;
基于蜻蜓翅翼的仿生微扑翼飞行器机翼的有限元分析
6.
Research on Control Technique of FMAV Based on Bionics;
基于仿生学的微扑翼飞行器控制技术研究
7.
Aerodynamic Characteristics of Flapping-wing MAV Simulating Bird Flight
仿鸟微型扑翼飞行器的气功特性研究
8.
The Research of Flying Theory and Control System for Micro Flying Robot with Flapping Wings;
微型仿生扑翼飞行机器人飞行机理和控制方案研究
9.
The Research of Aerodynamic Characteristic and Flapping-wing Actuator for Bionic Flapping-wing Aerial Robot;
仿生扑翼飞行机器人的动力特性与驱动机构研究
10.
Dynamics Simulation and Optimization Design of Driving Mechanisms of FMAV;
微扑翼飞行器动力学仿真及驱动机构优化设计
11.
Design of Flapping Mechanism for a Micro Air Vehicle Based on Mathematical Morphology;
基于数学形态学的微扑翼飞行器翅翼机构设计
12.
Study of the Wing Shape of Flapping-Wing MAV
扑翼飞行器机翼平面形状设计方法研究
13.
The Initial Exploration How the Coming Flow and Wing Flapping Mode Influence the Aerodynamic Parameters of Micro Aerial Vehicles;
来流及翼扑动方式对微型扑翼飞行器气动参数影响的初探
14.
Mode Detection Method of Flapping-wing Micro Air Vehicles Based on Images;
基于图像的微扑翼飞行器运动检测研究
15.
Research on Dynamics Modeling and Control Algorithm of Flapping Micro Aerial Vehicle;
扑翼微型飞行器动力学建模与控制算法研究
16.
Numerical study of aerodynamics for flexible membrane flapping-wing MAV
柔性膜微型扑翼飞行器气动力的数值研究
17.
Design and dynamic investigation on driving equipment of micro flapping flight
微扑翼飞行器驱动装置设计与动力学性能研究
18.
Simulation and Flutter Analysis of Wing Folding Process of Folding Wing Aircraft
折叠翼飞行器机翼折叠过程的颤振仿真分析