To realize dynamic walking of the humanoid robot, robot dynamic models have to be established, the control algorithm for gait and the stability postures should be designed.
实现类人型机器人动态行走,必须对机器人进行动力学建模、步态设计和稳定姿态控制算法设计。
This paper addresses time-invariant gait planning and finite-time nonlinear control strategy for a five-link, four-actuator planar biped robot to realize dynamic walking.
以五杆四驱动的平面双足步行机器人为对象,研究了其动态步行的时不变步态规划和限定时间的非线性控制策略。
The paper focuses on the research of gait planning and foot force control problems of the quadruped mobile robot. Gait planning of legged robot is the research hotspots and key issues all through.
本课题来源于黑龙江省科技攻关重点项目“多运动方式四足智能移动机器人的研究”,着重研究四足移动机器人的步态规划和足力控制问题。
In the question of on-line control for biped robot to step over dynamic obstacle, the learning time of footstep planning and gait pattern training is a crucial problem.
在双足机器人跨越动态障碍物的在线控制问题中,脚步规划和步态控制的学习时间是关键问题。
The key of quadruped robot walking control is stability, choice of gait and location and gesture of arthrosis.
四足机器人爬行控制的关键是机器人稳定性的判断、步态的选择和关节位置姿态的确定。
The key of quadruped robot walking control is stability, choice of gait and location and gesture of arthrosis.
四足机器人爬行控制的关键是机器人稳定性的判断、步态的选择和关节位置姿态的确定。
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