公开(公告)号：US20190202056A1

公开(公告)日：2019-07-04

申请号：US16026032

申请日：2018-07-02

Applicant: UBTECH Robotics Corp

Inventor： Youjun Xiong ,  Jinghua Tang

IPC: B25J9/16

Abstract: The present disclosure provides a robot motion path planning method, apparatus, and terminal device. The method includes planning a planned path for a robot in a current scene using an open motion planning library (OMPL) database, setting a shortest ideal path as an initial ideal path, calculating a new path between the planned path and the initial ideal path using a dichotomy method, determining whether the new path meets an obstacle avoidance requirement and a structural constraint of the robot in the current scene, making the new path as the new planned path if yes, otherwise determining the new path as a new ideal path, optimizing the planned path using the dichotomy method iteratively until an error between the planned path and the ideal path is within a preset range, and determining the planned path as a motion path of the robot, thereby improving the motion efficiency.

公开(公告)号：US11022983B2

公开(公告)日：2021-06-01

申请号：US16172838

申请日：2018-10-28

Applicant: UBTECH Robotics Corp

Inventor： Youjun Xiong ,  Ligang Ge ,  Chunyu Chen ,  Yizhang Liu ,  Zheng Xie ,  Zhaohui An ,  Jinghua Tang

IPC: G05D1/02 ,  B25J9/10 ,  B25J9/16 ,  B25J17/00 ,  B62D57/032 ,  G05D1/08 ,  B25J13/08

Abstract: The present disclosure relates to robot technology, which provides a gait control method, device, and terminal device for a biped robot. The method includes: planning an initial position of an ankle joint of the biped robot and a rotation angle of a sole of the biped robot to rotate around one of a toe and a heel of the biped robot; planning a body pose of the biped robot; calculating a target position of the ankle joint based on the initial position of the ankle joint and the rotation angle of the sole; obtaining a joint angle of each of a plurality of joints of the biped robot by performing an operation on the body pose and the target position of the ankle joint utilizing an inverse kinematics algorithm; and adjusting a gait of the biped robot based on the joint angle of each of the joints.

公开(公告)号：US20190204848A1

公开(公告)日：2019-07-04

申请号：US16172838

申请日：2018-10-28

Applicant: UBTECH Robotics Corp

Inventor： Youjun Xiong ,  Ligang Ge ,  Chunyu Chen ,  Yizhang Liu ,  Zheng Xie ,  Zhaohui An ,  Jinghua Tang

IPC: G05D1/02 ,  B25J9/10 ,  B25J9/16 ,  B25J13/08 ,  B25J17/00 ,  B62D57/032 ,  G05D1/08

CPC classification number: G05D1/0268 ,  B25J9/106 ,  B25J9/1615 ,  B25J13/08 ,  B25J17/00 ,  B62D57/032 ,  G05D1/0891 ,  G05D2201/0217

Abstract: The present disclosure relates to robot technology, which provides a gait control method, device, and terminal device for a biped robot. The method includes: planning art initial position of an ankle joint of the biped robot and a rotation angle a sole of the biped robot to rotate around one of a toe and a heel of the biped robot; planning a body pose of the biped robot; calculating a target position of the ankle joint based on the initial position of the ankle joint and the rotation angle of the sole; obtaining a joint angle, of each of a plurality of joints of the biped robot by performing an operation on the body pose and the target position of the ankle joint utilizing an inverse kinematics algorithm; and adjusting a gait of the biped robot based on the joint angle of each of the joints.

公开(公告)号：US10821605B2

公开(公告)日：2020-11-03

申请号：US16026032

申请日：2018-07-02

Applicant: UBTECH Robotics Corp

Inventor： Youjun Xiong ,  Jinghua Tang

IPC: B25J9/16

Abstract: The present disclosure provides a robot motion path planning method, apparatus, and terminal device. The method includes planning a planned path for a robot in a current scene using an open motion planning library (OMPL) database, setting a shortest ideal path as an initial ideal path, calculating a new path between the planned path and the initial ideal path using a dichotomy method, determining whether the new path meets an obstacle avoidance requirement and a structural constraint of the robot in the current scene, making the new path as the new planned path if yes, otherwise determining the new path as a new ideal path, optimizing the planned path using the dichotomy method iteratively until an error between the planned path and the ideal path is within a preset range, and determining the planned path as a motion path of the robot, thereby improving the motion efficiency.