# [Aloha: A Low-Cost Hardware for Bimanual Teleoperation](https://www.trossenrobotics.com/aloha-stationary)
# https://aloha-2.github.io

# Requires installing extras packages
# With pip: `pip install -e ".[dynamixel intelrealsense]"`
# With poetry: `poetry install --sync --extras "dynamixel intelrealsense"`

# See [tutorial](https://github.com/huggingface/lerobot/blob/main/examples/9_use_aloha.md)


_target_: lerobot.common.robot_devices.robots.manipulator.ManipulatorRobot
robot_type: aloha
# Specific to Aloha, LeRobot comes with default calibration files. Assuming the motors have been
# properly assembled, no manual calibration step is expected. If you need to run manual calibration,
# simply update this path to ".cache/calibration/aloha"
calibration_dir: .cache/calibration/aloha_default

# /!\ FOR SAFETY, READ THIS /!\
# `max_relative_target` limits the magnitude of the relative positional target vector for safety purposes.
# Set this to a positive scalar to have the same value for all motors, or a list that is the same length as
# the number of motors in your follower arms.
# For Aloha, for every goal position request, motor rotations are capped at 5 degrees by default.
# When you feel more confident with teleoperation or running the policy, you can extend
# this safety limit and even removing it by setting it to `null`.
# Also, everything is expected to work safely out-of-the-box, but we highly advise to
# first try to teleoperate the grippers only (by commenting out the rest of the motors in this yaml),
# then to gradually add more motors (by uncommenting), until you can teleoperate both arms fully
max_relative_target: null

leader_arms:
  right:
    _target_: lerobot.common.robot_devices.motors.dynamixel.DynamixelMotorsBus
    port: /dev/ttyDXL_leader_right
    motors:  # window_x
      # name: (index, model)
      waist: [1, xm430-w350]
      shoulder: [2, xm430-w350]
      shoulder_shadow: [3, xm430-w350]
      elbow: [4, xm430-w350]
      elbow_shadow: [5, xm430-w350]
      forearm_roll: [6, xm430-w350]
      wrist_angle: [7, xm430-w350]
      wrist_rotate: [8, xl430-w250]
      gripper: [9, xc430-w150]

follower_arms:
  right:
    _target_: lerobot.common.robot_devices.motors.dynamixel.DynamixelMotorsBus
    port: /dev/ttyDXL_follower_right
    motors:
      # name: [index, model]
      waist: [1, xm540-w270]
      shoulder: [2, xm540-w270]
      shoulder_shadow: [3, xm540-w270]
      elbow: [4, xm540-w270]
      elbow_shadow: [5, xm540-w270]
      forearm_roll: [6, xm540-w270]
      wrist_angle: [7, xm540-w270]
      wrist_rotate: [8, xm430-w350]
      gripper: [9, xm430-w350]

# Troubleshooting: If one of your IntelRealSense cameras freeze during
# data recording due to bandwidth limit, you might need to plug the camera
# on another USB hub or PCIe card.
cameras:
  cam_high:
    _target_: lerobot.common.robot_devices.cameras.intelrealsense.IntelRealSenseCamera
    serial_number: 1234567890
    fps: 30
    width: 640
    height: 480

  cam_right_wrist:
    _target_: lerobot.common.robot_devices.cameras.intelrealsense.IntelRealSenseCamera
    serial_number: 1234567890
    fps: 30
    width: 640
    height: 480