# !/usr/bin/env python # Copyright 2025 The HuggingFace Inc. team. All rights reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specif import time from lerobot.model.kinematics import RobotKinematics from lerobot.processor import RobotAction, RobotObservation, RobotProcessorPipeline from lerobot.processor.converters import ( robot_action_observation_to_transition, transition_to_robot_action, ) from lerobot.robots.so100_follower.config_so100_follower import SO100FollowerConfig from lerobot.robots.so100_follower.robot_kinematic_processor import ( EEBoundsAndSafety, EEReferenceAndDelta, GripperVelocityToJoint, InverseKinematicsEEToJoints, ) from lerobot.robots.so100_follower.so100_follower import SO100Follower from lerobot.teleoperators.phone.config_phone import PhoneConfig, PhoneOS from lerobot.teleoperators.phone.phone_processor import MapPhoneActionToRobotAction from lerobot.teleoperators.phone.teleop_phone import Phone from lerobot.utils.robot_utils import busy_wait from lerobot.utils.visualization_utils import _init_rerun, log_rerun_data FPS = 30 # Initialize the robot and teleoperator robot_config = SO100FollowerConfig( port="/dev/tty.usbmodem5A460814411", id="my_awesome_follower_arm", use_degrees=True ) teleop_config = PhoneConfig(phone_os=PhoneOS.IOS) # or PhoneOS.ANDROID # Initialize the robot and teleoperator robot = SO100Follower(robot_config) teleop_device = Phone(teleop_config) # NOTE: It is highly recommended to use the urdf in the SO-ARM100 repo: https://github.com/TheRobotStudio/SO-ARM100/blob/main/Simulation/SO101/so101_new_calib.urdf kinematics_solver = RobotKinematics( urdf_path="./SO101/so101_new_calib.urdf", target_frame_name="gripper_frame_link", joint_names=list(robot.bus.motors.keys()), ) # Build pipeline to convert phone action to ee pose action to joint action phone_to_robot_joints_processor = RobotProcessorPipeline[tuple[RobotAction, RobotObservation], RobotAction]( steps=[ MapPhoneActionToRobotAction(platform=teleop_config.phone_os), EEReferenceAndDelta( kinematics=kinematics_solver, end_effector_step_sizes={"x": 0.5, "y": 0.5, "z": 0.5}, motor_names=list(robot.bus.motors.keys()), use_latched_reference=True, ), EEBoundsAndSafety( end_effector_bounds={"min": [-1.0, -1.0, -1.0], "max": [1.0, 1.0, 1.0]}, max_ee_step_m=0.10, max_ee_twist_step_rad=0.50, ), GripperVelocityToJoint( speed_factor=20.0, ), InverseKinematicsEEToJoints( kinematics=kinematics_solver, motor_names=list(robot.bus.motors.keys()), initial_guess_current_joints=True, ), ], to_transition=robot_action_observation_to_transition, to_output=transition_to_robot_action, ) # Connect to the robot and teleoperator robot.connect() teleop_device.connect() # Init rerun viewer _init_rerun(session_name="phone_so100_teleop") if not robot.is_connected or not teleop_device.is_connected: raise ValueError("Robot or teleop is not connected!") print("Starting teleop loop. Move your phone to teleoperate the robot...") while True: t0 = time.perf_counter() # Get robot observation robot_obs = robot.get_observation() # Get teleop action phone_obs = teleop_device.get_action() # Phone -> EE pose -> Joints transition joint_action = phone_to_robot_joints_processor((phone_obs, robot_obs)) # Send action to robot _ = robot.send_action(joint_action) # Visualize log_rerun_data(observation=phone_obs, action=joint_action) busy_wait(max(1.0 / FPS - (time.perf_counter() - t0), 0.0))