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run_diff_ik.py
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run_diff_ik.py
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# Copyright (c) 2022-2024, The Isaac Lab Project Developers.
# All rights reserved.
#
# SPDX-License-Identifier: BSD-3-Clause
"""
This script demonstrates how to use the differential inverse kinematics controller with the simulator.
The differential IK controller can be configured in different modes. It uses the Jacobians computed by
PhysX. This helps perform parallelized computation of the inverse kinematics.
.. code-block:: bash
# Usage
./isaaclab.sh -p source/standalone/tutorials/05_controllers/ik_control.py
"""
"""Launch Isaac Sim Simulator first."""
import argparse
from omni.isaac.lab.app import AppLauncher
# add argparse arguments
parser = argparse.ArgumentParser(description="Tutorial on using the differential IK controller.")
parser.add_argument("--robot", type=str, default="franka_panda", help="Name of the robot.")
parser.add_argument("--num_envs", type=int, default=128, help="Number of environments to spawn.")
# append AppLauncher cli args
AppLauncher.add_app_launcher_args(parser)
# parse the arguments
args_cli = parser.parse_args()
# launch omniverse app
app_launcher = AppLauncher(args_cli)
simulation_app = app_launcher.app
"""Rest everything follows."""
import torch
import omni.isaac.lab.sim as sim_utils
from omni.isaac.lab.assets import AssetBaseCfg
from omni.isaac.lab.controllers import DifferentialIKController, DifferentialIKControllerCfg
from omni.isaac.lab.managers import SceneEntityCfg
from omni.isaac.lab.markers import VisualizationMarkers
from omni.isaac.lab.markers.config import FRAME_MARKER_CFG
from omni.isaac.lab.scene import InteractiveScene, InteractiveSceneCfg
from omni.isaac.lab.utils import configclass
from omni.isaac.lab.utils.assets import ISAAC_NUCLEUS_DIR
from omni.isaac.lab.utils.math import subtract_frame_transforms
##
# Pre-defined configs
##
from omni.isaac.lab_assets import FRANKA_PANDA_HIGH_PD_CFG, UR10_CFG # isort:skip
@configclass
class TableTopSceneCfg(InteractiveSceneCfg):
"""Configuration for a cart-pole scene."""
# ground plane
ground = AssetBaseCfg(
prim_path="/World/defaultGroundPlane",
spawn=sim_utils.GroundPlaneCfg(),
init_state=AssetBaseCfg.InitialStateCfg(pos=(0.0, 0.0, -1.05)),
)
# lights
dome_light = AssetBaseCfg(
prim_path="/World/Light", spawn=sim_utils.DomeLightCfg(intensity=3000.0, color=(0.75, 0.75, 0.75))
)
# mount
table = AssetBaseCfg(
prim_path="{ENV_REGEX_NS}/Table",
spawn=sim_utils.UsdFileCfg(
usd_path=f"{ISAAC_NUCLEUS_DIR}/Props/Mounts/Stand/stand_instanceable.usd", scale=(2.0, 2.0, 2.0)
),
)
# articulation
if args_cli.robot == "franka_panda":
robot = FRANKA_PANDA_HIGH_PD_CFG.replace(prim_path="{ENV_REGEX_NS}/Robot")
elif args_cli.robot == "ur10":
robot = UR10_CFG.replace(prim_path="{ENV_REGEX_NS}/Robot")
else:
raise ValueError(f"Robot {args_cli.robot} is not supported. Valid: franka_panda, ur10")
def run_simulator(sim: sim_utils.SimulationContext, scene: InteractiveScene):
"""Runs the simulation loop."""
# Extract scene entities
# note: we only do this here for readability.
robot = scene["robot"]
# Create controller
diff_ik_cfg = DifferentialIKControllerCfg(command_type="pose", use_relative_mode=False, ik_method="dls")
diff_ik_controller = DifferentialIKController(diff_ik_cfg, num_envs=scene.num_envs, device=sim.device)
# Markers
frame_marker_cfg = FRAME_MARKER_CFG.copy()
frame_marker_cfg.markers["frame"].scale = (0.1, 0.1, 0.1)
ee_marker = VisualizationMarkers(frame_marker_cfg.replace(prim_path="/Visuals/ee_current"))
goal_marker = VisualizationMarkers(frame_marker_cfg.replace(prim_path="/Visuals/ee_goal"))
# Define goals for the arm
ee_goals = [
[0.5, 0.5, 0.7, 0.707, 0, 0.707, 0],
[0.5, -0.4, 0.6, 0.707, 0.707, 0.0, 0.0],
[0.5, 0, 0.5, 0.0, 1.0, 0.0, 0.0],
]
ee_goals = torch.tensor(ee_goals, device=sim.device)
# Track the given command
current_goal_idx = 0
# Create buffers to store actions
ik_commands = torch.zeros(scene.num_envs, diff_ik_controller.action_dim, device=robot.device)
ik_commands[:] = ee_goals[current_goal_idx]
# Specify robot-specific parameters
if args_cli.robot == "franka_panda":
robot_entity_cfg = SceneEntityCfg("robot", joint_names=["panda_joint.*"], body_names=["panda_hand"])
elif args_cli.robot == "ur10":
robot_entity_cfg = SceneEntityCfg("robot", joint_names=[".*"], body_names=["ee_link"])
else:
raise ValueError(f"Robot {args_cli.robot} is not supported. Valid: franka_panda, ur10")
# Resolving the scene entities
robot_entity_cfg.resolve(scene)
# Obtain the frame index of the end-effector
# For a fixed base robot, the frame index is one less than the body index. This is because
# the root body is not included in the returned Jacobians.
if robot.is_fixed_base:
ee_jacobi_idx = robot_entity_cfg.body_ids[0] - 1
else:
ee_jacobi_idx = robot_entity_cfg.body_ids[0]
# Define simulation stepping
sim_dt = sim.get_physics_dt()
count = 0
# Simulation loop
while simulation_app.is_running():
# reset
if count % 150 == 0:
# reset time
count = 0
# reset joint state
joint_pos = robot.data.default_joint_pos.clone()
joint_vel = robot.data.default_joint_vel.clone()
robot.write_joint_state_to_sim(joint_pos, joint_vel)
robot.reset()
# reset actions
ik_commands[:] = ee_goals[current_goal_idx]
joint_pos_des = joint_pos[:, robot_entity_cfg.joint_ids].clone()
# reset controller
diff_ik_controller.reset()
diff_ik_controller.set_command(ik_commands)
# change goal
current_goal_idx = (current_goal_idx + 1) % len(ee_goals)
else:
# obtain quantities from simulation
jacobian = robot.root_physx_view.get_jacobians()[:, ee_jacobi_idx, :, robot_entity_cfg.joint_ids]
ee_pose_w = robot.data.body_state_w[:, robot_entity_cfg.body_ids[0], 0:7]
root_pose_w = robot.data.root_state_w[:, 0:7]
joint_pos = robot.data.joint_pos[:, robot_entity_cfg.joint_ids]
# compute frame in root frame
ee_pos_b, ee_quat_b = subtract_frame_transforms(
root_pose_w[:, 0:3], root_pose_w[:, 3:7], ee_pose_w[:, 0:3], ee_pose_w[:, 3:7]
)
# compute the joint commands
joint_pos_des = diff_ik_controller.compute(ee_pos_b, ee_quat_b, jacobian, joint_pos)
# apply actions
robot.set_joint_position_target(joint_pos_des, joint_ids=robot_entity_cfg.joint_ids)
scene.write_data_to_sim()
# perform step
sim.step()
# update sim-time
count += 1
# update buffers
scene.update(sim_dt)
# obtain quantities from simulation
ee_pose_w = robot.data.body_state_w[:, robot_entity_cfg.body_ids[0], 0:7]
# update marker positions
ee_marker.visualize(ee_pose_w[:, 0:3], ee_pose_w[:, 3:7])
goal_marker.visualize(ik_commands[:, 0:3] + scene.env_origins, ik_commands[:, 3:7])
def main():
"""Main function."""
# Load kit helper
sim_cfg = sim_utils.SimulationCfg(dt=0.01, device=args_cli.device)
sim = sim_utils.SimulationContext(sim_cfg)
# Set main camera
sim.set_camera_view([2.5, 2.5, 2.5], [0.0, 0.0, 0.0])
# Design scene
scene_cfg = TableTopSceneCfg(num_envs=args_cli.num_envs, env_spacing=2.0)
scene = InteractiveScene(scene_cfg)
# Play the simulator
sim.reset()
# Now we are ready!
print("[INFO]: Setup complete...")
# Run the simulator
run_simulator(sim, scene)
if __name__ == "__main__":
# run the main function
main()
# close sim app
simulation_app.close()