1.Designed and constructs the chaos control strategy used in chaos control of underwater robot permanent magnet propulsion motor system.
设计和构造了易于工程实施的混沌控制策略,用于水下机器人永磁推进电机系统混沌控制。
2.In the experimental environment with complex flow field disturbances, the improved super-mini underwater robot exhibits apparent advantages.
在具有复杂流场干扰的实验环境测试中,改进型超小型水下机器人具有明显的优势。
3.In design of multi-axis force sensor used in underwater robot, the problem how to balance hydraulic pressure must be resolved firstly.
水下机器人用多轴力传感器的设计必须首先解决水压力平衡的问题。
4.Aiming to promote the underwater robot technology, a global vision-based underwater robot competition is introduced in this paper.
为了推动水下机器人技术的发展,本文介绍了一种基于全局视觉的水中机器人竞赛项目。
5.In order to adapt to this demand, a variety of submersible vehicle and underwater robot will be developed rapidly.
为了适应这种需求,各种环境的水下潜器和水下机器人将会得到迅猛的发展。
6.Underwater robot, such as Deep Drone, can travel to the ocean floor and help recover crashed aircraft or sunken ships.
水下机器人,比如说DeepDrone可以到达洋底去,帮助发现失事的飞机和沉船。
7.Underwater robot with a sense of touch
有触觉,仿生外观的水下机器人
8.Study of Design of Underwater Robot for Brushing Hull Exterior
水下船体表面清刷机器人方案研究
9.Selection of Multi-objective Genetic Algorithm for Underwater Robot Motion Planning
水下机器人运动规划中多目标遗传算法的选择方法
10.On Data Fusion Using MaximumLikelihood Method and its Application to Underwater Robot
极大似然估计的信息融合方法及其在水下航行器制导中的应用