Exemplo n.º 1
0
def main():
    # one viewer opened through __init__()
    robot = MjWam4()
    robot.reset(pos=np.ones(4))
    robot.step(n_steps=1000)
    robot.close()

    time.sleep(1.0)

    # one viewer opened though start_rendering()
    robot = MjWam7(render=False)
    robot.reset(pos=np.ones(7))
    robot.step(n_steps=1000)
    robot.start_rendering()
    robot.step(n_steps=1000)
    robot.stop_rendering()
    robot.step(n_steps=1000)
    robot.close()

    # two viewers for two robots simultaneously
    robot1 = MjWam4()
    robot1.reset(pos=np.ones(4))
    robot2 = MjWam7()
    robot2.reset(pos=np.ones(7))
    for _ in range(1000):
        robot1.step()
        robot2.step()
    robot1.close()
    robot2.close()
Exemplo n.º 2
0
def main():
    chain = Wam4IK(base_translation=[0, 0, 0.84],
                   base_orientation=[0, 0, np.pi / 2])

    links = [
        'wam/links/base', 'wam/links/shoulder_yaw', 'wam/links/shoulder_pitch',
        'wam/links/upper_arm', 'wam/links/forearm',
        'wam/links/tool_base_wo_plate', 'wam/links/tool_base_w_plate'
    ]

    x0 = np.array([0, 0, 0.84])
    q_test = [[0, 0, 0, 0], [1, 1, 1, 1]]

    robot = MjWam4(render=True, g_comp=True)
    for q in q_test:
        print(f'\n\ntesting for q={q}')
        robot.reset(pos=q)
        cart = chain.forward_kinematics([0, 0] + q + [0, 0, 0],
                                        full_kinematics=True)

        for i in range(7):
            print(f'\n{links[i][10:]}')
            mj_pos = robot.get_body_full_mat(links[i])[:3, 3] - x0
            ikpy_pos = cart[i + 1][:3, 3] - x0
            print(f'mj:   {mj_pos}')
            print(f'ikpy: {ikpy_pos}')
            print(f'diff: {mj_pos-ikpy_pos}')

    plot_joints(chain, q_test)

    # inverse kinematics
    x_des = [0.15, 0.86, 1.45]
    q = chain.active_from_full(chain.inverse_kinematics(x_des))
    robot.set_mocap_pos('endeff_des', x_des)
    robot.step(des_pos=q, n_steps=5000)
Exemplo n.º 3
0
def main():
    robot = MjWam4(xml_path="test.xml")

    pos, vel, quat, vel_euler = robot.get_object_state("ball1", True, True,
                                                       True, True)
    print(pos, vel, quat, vel_euler, sep='\n')

    robot.set_object_state("ball1", pos, vel, quat, vel_euler)
Exemplo n.º 4
0
def main():
    robot = MjWam4(render=True, g_comp=True)
    robot.reset(pos=np.ones(4))
    robot.step(n_steps=1000)
    robot.close()

    robot = MjWam7(render=True, g_comp=True)
    robot.reset(pos=np.ones(7))
    robot.step(n_steps=1000)
def main():

    def control_callback(robot):
        t = robot.time
        q0 = np.zeros(robot.n_dof)
        qT = np.ones(robot.n_dof)
        T = 3.
        robot.pos_des = np.minimum(1., (t / T)) * (qT - q0) + q0
        robot.vel_des = np.zeros(robot.n_dof)
        robot.tau_des = np.zeros(robot.n_dof)

    robot = MjWam4()
    robot.set_joint_state(np.zeros(robot.n_dof), np.zeros(robot.n_dof))


    robot.set_control_cb(control_callback)
    robot.start_spinning()
    time.sleep(1.5)
    robot.stop_spinning()

    robot.stop_rendering()
    robot.start_rendering()

    robot.start_spinning()
    time.sleep(1.5)
    robot.stop_spinning()

    # when using a new robot instance make sure to hand over the correct
    # one to the control callback!
    robot.close()
    robot = MjWam7()
    robot.set_joint_state(np.zeros(robot.n_dof), np.zeros(robot.n_dof))
    robot.set_control_cb(control_callback)

    robot.start_spinning()
    time.sleep(3.0)
    robot.stop_spinning()

    robot.close()
Exemplo n.º 6
0
import numpy as np
from mujoco_robots.robots import MjWam7, MjWam4

if __name__ == "__main__":
    # robot = MjWAM7(render=True)
    robot = MjWam4(render=True)

    goal_state = np.ones(robot.n_dof)

    def compute_des_state(start, goal, max_time, t):
        des_pos = np.minimum(1., (t / max_time)) * (goal - start) + start
        des_vel = np.zeros_like(start)
        return des_pos, des_vel

    for _ in range(2):
        pos, vel, time = robot.reset()
        for i in range(2000):
            des_pos, des_vel = compute_des_state(robot.home_pos, goal_state,
                                                 3., time)

            # works similar to openai gym but also has a pd(+g) controller, so you can
            # specify desired positions, velocities and feed forward torques.
            pos, vel, time = robot.step(des_pos, des_vel)
Exemplo n.º 7
0
def main():
    robot = MjWam4()
    print(robot.get_transform('world', 'wam/links/base'))