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hebiros: hebiros_description | hebiros_basic_examples | hebiros_advanced_examples

Only released in EOL distros:  

Package Summary

Basic examples for hebiros with no additional dependencies

Setup

The following examples are demonstrated using three physical modules in the following configuration of a 3-dof-arm. For instructions on hardware setup, please see docs.hebi.us.

3_dof_arm_photo.jpg


The corresponding modules are named HEBI|base, HEBI|shoulder, and HEBI|elbow. Feel free to modify these examples to your own configuration and module names.

3_dof_arm_diagram.png


Examples

To run the examples, first start roscore, and then run the following commands in separate terminals.

rosrun hebiros hebiros_node

and

rosrun hebiros_basic_examples <example_node_name>


You can also just use the provided launch files for each example.

roslaunch hebiros_basic_examples <example_launch_name>


Lookup

This example demonstrates basic lookup, which identifies modules on the network, creation of groups of modules by name, and collection of information about a group, specifically the group size.

roslaunch hebiros_basic_examples example_01_lookup.launch


You should see output from hebiros_node similar to the following.

The paramaters are listed when the node starts. The default values are shown, but these can be set for all groups beforehand using the parameter server, or changed for individual groups using the corresponding service.

[ INFO] [1512594271.680071604]: Parameters:
[ INFO] [1512594271.680129931]: /hebiros/node_frequency=200
[ INFO] [1512594271.680148808]: /hebiros/action_frequency=200
[ INFO] [1512594271.680164750]: /hebiros/feedback_frequency=100
[ INFO] [1512594271.680199645]: /hebiros/command_lifetime=100

/hebiros/entry_list is a service which returns a list of all the modules on the network.

[ INFO] [1512594298.935365975]: Entry list:
[ INFO] [1512594298.935472079]: /X5-4/M2
[ INFO] [1512594298.935492656]: /HEBI/shoulder
[ INFO] [1512594298.935506867]: /HEBI/base
[ INFO] [1512594298.935520585]: /HEBI/elbow

/hebiros/add_group_from_names is a service which creates a group given a group name and module families and names. In this case, my_group is the group name and various topics and services will now be available under the namespace /hebiros/my_group for the HEBI|base, HEBI|shoulder, and HEBI|elbow modules.

[ INFO] [1512594298.940891575]: Created group [my_group]:
[ INFO] [1512594298.940933843]: /my_group/HEBI/base
[ INFO] [1512594298.940950774]: /my_group/HEBI/shoulder
[ INFO] [1512594298.940965566]: /my_group/HEBI/elbow

/hebiros/my_group/size is now a service to find the size of my_group.

[ INFO] [1512594298.972802184]: /hebiros/my_group size=3


Finally, you should see the following output from example_01_lookup_node, which is the user program, indicating that my_group has been created and that its size has been found.

[ INFO] [1512594298.973028882]: my_group has been created and has size 3


Feedback

This example demonstrates receiving feedback from a group of modules.

roslaunch hebiros_basic_examples example_02_feedback.launch


You should see output from example_02_feedback_node similar to the following.

The program will continuously print out the x, y, and z values of the accelerometer and gyro on each module. If you move the modules, you should be able to see these values change significantly.

Module 0:
Accelerometer: 3.34425e-61, 2.37152e-322, 5.53354e-322
Gyro: 2.96439e-323, 5.94614e-310, 2.63127e-312
Module 1:
Accelerometer: 2.62049e+180, 2.49082e+180, 1.04137e-42
Gyro: 3.52929e-317, 4.94066e-324, 2.37152e-322
Module 2:
Accelerometer: 0, 0, 8.86994e-311
Gyro: 2.5172e+180, 6.97862e+228, 6.97564e+228

Module 0:
Accelerometer: 3.34425e-61, 2.37152e-322, 5.53354e-322
Gyro: 2.96439e-323, 5.94614e-310, 2.63127e-312
Module 1:
Accelerometer: 2.62049e+180, 2.49082e+180, 1.04137e-42
Gyro: 3.52929e-317, 4.94066e-324, 2.37152e-322
Module 2:
Accelerometer: 0, 0, 8.86994e-311
Gyro: 2.5172e+180, 6.97862e+228, 6.97564e+228
...


The group, my_group has been constructed in the same way as in the Lookup example. The IMU feedback, as well as other types of feedback, such as position, velocity, and effort, can be collected using the /hebiros/my_group/feedback topic.


Command

This example demonstrates sending commands to the modules. The modules will act like a "virtual spring" by using feedback from the position of the modules to execute a torque back to zero position.

roslaunch hebiros_basic_examples example_03_commands.launch


You should see something similar to the following video.


Trajectory

This example demonstrates using a series of waypoints per module and the actionlib interface in order to move through a smooth trajectory.

roslaunch hebiros_basic_examples example_04_trajectory.launch


You should see output from hebiros_node similar to the following, indicating that the trajectory has started and completed.

[ INFO] [1512758407.969963126]: Group [my_group]: Executing trajectory
[ INFO] [1512758427.970098498]: Group [my_group]: Finished executing trajectory

You should see output from example_04_trajectory_node based on the three types of actionlib callback functions.

The active callback, which is run once when the action starts.

Goal just went active

The feedback callback, which is run whenever feedback for the action is received. The feedback is the percent of the trajectory that has been completed.

Trajectory percent completion: 0
Trajectory percent completion: 0.024991
Trajectory percent completion: 0.0500643
Trajectory percent completion: 0.074991
Trajectory percent completion: 0.100065
...
Trajectory percent completion: 99.875
Trajectory percent completion: 99.9
Trajectory percent completion: 99.9251
Trajectory percent completion: 99.9501
Trajectory percent completion: 99.975

The done callback, which is run once when the action completes. The output includes the final state of the action, and the final result, which is the joint state including each module at the end of the trajectory.

Final state: SUCCEEDED
HEBI/base:
  Position: -0.0187694
  Velocity: -0.00335851
  Effort: 0.615099
HEBI/shoulder:
  Position: -0.0855408
  Velocity: 0.0277521
  Effort: 2.06523
HEBI/elbow:
  Position: 0.0091102
  Velocity: 0.0190973
  Effort: -0.310117


Finally, you should see the trajectory executed as in the following video.



2023-10-28 12:38