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。

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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。

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Analysis the basic gait of robot on the frontal plane. Plan every joint movement, and judge the stability of dynamic walking by ZMP principle. Present the result of simulation.

分析拟人足球机器人前向行走基本步态，规划各关节的运动轨迹，并用ZMP判据判断动态步行稳定性，并给出仿真结果。

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