其次,提出了正运动学与逆运动学相结合的步态规划方法。
Secondly, put forward the walking planning idea combining forward kinematics with inverse kinematics.
针对双足机器人步行问题,提出了一种基于分离设计/集成优化的步态规划方法。
Objective: To explore a kind of gait programming algorithm for the gait training robot used in partial body weight support training (PBWST).
穿戴下肢外骨骼的数字人在虚拟人机系统运动仿真中应具有稳定自然的步态,因此需要研究步态规划方法。
In order to get stable and natural gait of numerical man with lower exoskeleton in the dynamic simulation of virtual man-machine system, the study of gait planning methods is required.
提出一种基于步态规划分级结构的自适应网络模糊推理系统控制策略,该方法不需要确定双足机器人运动学和动力学模型。
Proposed an adaptive network fuzzy inference system control strategy based on hierarchy structure of gait planning, which do not require detailed kinematics or dynamic biped models.
针对四足机器人多自由度运动的特点,提出了一种舵机驱动控制机器人实现所规划的行走步态的有效方法。
Due to more freedom movement characteristics of quadruped robot, this paper puts forward a effective method of a kind of servo drive controls the robot to achieve planned walking gait.
文章针对两足步行椅机器人介绍了其步态规划中步行稳定性的计算方法。
In this paper, a computation method for the walking stability of biped walking-chair robot in gait planning is discussed focused on forward motion.
进一步基于零力矩点理论,提出了一种综合机构修正和步态修正方法的步态规划集成优化策略。
Furthermore, based on the ZMP theory, the structure and gait optimization method were integrated to modify the gait locomotion.
然后是本文的核心内容,阐述本文所采用仿人人步行方法:两步步态规划法和基于三维陀螺仪的姿态反馈的步行。
Thirdly, it is the core of the paper. Elaborate the Two Steps Gait Plan and the attitude feedback through 3d gyroscope walk method, which is used in the paper.
然后是本文的核心内容,阐述本文所采用仿人人步行方法:两步步态规划法和基于三维陀螺仪的姿态反馈的步行。
Thirdly, it is the core of the paper. Elaborate the Two Steps Gait Plan and the attitude feedback through 3d gyroscope walk method, which is used in the paper.
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