Example #1
0
def get_kinematics_config(robot, joint_id, link_id, open_chain_joints,
                          base_link, ee_link):
    joint_screws_in_ee = np.zeros((6, len(open_chain_joints)))
    ee_link_state = p.getLinkState(robot, link_id[ee_link], 1, 1)
    if link_id[base_link] == -1:
        base_pos, base_quat = p.getBasePositionAndOrientation(robot)
    else:
        base_link_state = p.getLinkState(robot, link_id[base_link], 1, 1)
        base_pos, base_quat = base_link_state[0], base_link_state[1]
    T_w_b = liegroup.RpToTrans(util.quat_to_rot(np.array(base_quat)),
                               np.array(base_pos))
    T_w_ee = liegroup.RpToTrans(util.quat_to_rot(np.array(ee_link_state[1])),
                                np.array(ee_link_state[0]))
    T_b_ee = np.dot(liegroup.TransInv(T_w_b), T_w_ee)
    for i, joint_name in enumerate(open_chain_joints):
        joint_info = p.getJointInfo(robot, joint_id[joint_name])
        link_name = joint_info[12].decode("utf-8")
        joint_type = joint_info[2]
        joint_axis = joint_info[13]
        screw_at_joint = np.zeros(6)
        link_state = p.getLinkState(robot, link_id[link_name], 1, 1)
        T_w_j = liegroup.RpToTrans(util.quat_to_rot(np.array(link_state[5])),
                                   np.array(link_state[4]))
        T_ee_j = np.dot(liegroup.TransInv(T_w_ee), T_w_j)
        Adj_ee_j = liegroup.Adjoint(T_ee_j)
        if joint_type == p.JOINT_REVOLUTE:
            screw_at_joint[0:3] = np.array(joint_axis)
        elif joint_type == p.JOINT_PRISMATIC:
            screw_at_joint[3:6] = np.array(joint_axis)
        else:
            raise ValueError
        joint_screws_in_ee[:, i] = np.dot(Adj_ee_j, screw_at_joint)

    return joint_screws_in_ee, T_b_ee
Example #2
0
def ik_feet(base_pos, base_quat, lf_pos, lf_quat, rf_pos, rf_quat,
            nominal_sensor_data, joint_screws_in_ee_at_home, ee_SE3_at_home,
            open_chain_joints):
    joint_pos = copy.deepcopy(nominal_sensor_data['joint_pos'])
    T_w_base = liegroup.RpToTrans(util.quat_to_rot(base_quat), base_pos)

    # left foot
    lf_q_guess = np.array([
        nominal_sensor_data['joint_pos'][j_name]
        for j_name in open_chain_joints[0]
    ])
    T_w_lf = liegroup.RpToTrans(util.quat_to_rot(lf_quat), lf_pos)
    T_base_lf = np.dot(liegroup.TransInv(T_w_base), T_w_lf)
    lf_q_sol, lf_done = robot_kinematics.IKinBody(
        joint_screws_in_ee_at_home[0], ee_SE3_at_home[0], T_base_lf,
        lf_q_guess)
    for j_id, j_name in enumerate(open_chain_joints[0]):
        joint_pos[j_name] = lf_q_sol[j_id]

    # right foot
    rf_q_guess = np.array([
        nominal_sensor_data['joint_pos'][j_name]
        for j_name in open_chain_joints[1]
    ])
    T_w_rf = liegroup.RpToTrans(util.quat_to_rot(rf_quat), rf_pos)
    T_base_rf = np.dot(liegroup.TransInv(T_w_base), T_w_rf)
    rf_q_sol, rf_done = robot_kinematics.IKinBody(
        joint_screws_in_ee_at_home[1], ee_SE3_at_home[1], T_base_rf,
        rf_q_guess)
    for j_id, j_name in enumerate(open_chain_joints[1]):
        joint_pos[j_name] = rf_q_sol[j_id]

    return joint_pos, lf_done, rf_done
Example #3
0
        # Solve Inverse Kinematics
        base_pos = np.copy(vis_base_lin_pos)
        base_quat = np.copy(
            util.rot_to_quat(util.euler_to_rot(vis_base_ang_pos)))
        for ee in range(2):
            q_guess = np.array([
                nominal_sensor_data['joint_pos'][j_name]
                for j_name in open_chain_joints[ee]
            ])
            T_w_base = liegroup.RpToTrans(util.euler_to_rot(vis_base_ang_pos),
                                          vis_base_lin_pos)
            T_w_ee = liegroup.RpToTrans(
                util.euler_to_rot(vis_ee_motion_ang_pos[ee]),
                vis_ee_motion_lin_pos[ee])
            des_T = np.dot(liegroup.TransInv(T_w_base), T_w_ee)  # << T_base_ee
            q_sol, done = robot_kinematics.IKinBody(
                joint_screws_in_ee_at_home[ee], ee_SE3_at_home[ee], des_T,
                q_guess)
            for j_id, j_name in enumerate(open_chain_joints[ee]):
                joint_pos[j_name] = q_sol[j_id]

            if not done:
                print("====================================")
                print("Sovling inverse kinematics for ee-{} at time {}".format(
                    ee, vis_t))
                print("success: {}".format(done))
                print("T_w_base")
                print(T_w_base)
                print("T_w_ee")
                print(T_w_ee)