Difference between revisions of "Hubo DRC Peg-In-Hole & Valve Turn"
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− | : [https://www.youtube.com/watch?v=sSjuIeD9I-o Video demonstration] for the physical controller | + | : [https://www.youtube.com/watch?v=sSjuIeD9I-o Video demonstration] for the physical controller (the archr_drc.py script) |
− | : [https://www.youtube.com/watch?v=4qXgPeQS--w&list=UU1bXijFzURTJU3T0gwT8egg Video demonstration] for the keyboard controller | + | : [https://www.youtube.com/watch?v=4qXgPeQS--w&list=UU1bXijFzURTJU3T0gwT8egg Video demonstration] for the keyboard controller (HuboKeyboardControl.py) |
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Latest revision as of 01:46, 17 December 2014
Overview
The ARCHR controller was able to perform peg-in-hole and maintained accurate control of the end effectors. A stereovision system could not be implemented in openrave due to constraints with instantiating a camera in openrave within a virtual machine. A stereovision system would have offered an immersive controller and could be implemented in the future on a hard install of Linux, or using Gazebo. Source code for operating our controller in Gazebo is included in the gazebo directory of the archr_drc github folder, but not explained in this article and left for you to explore.
Tutorials
1: Installing openRAVE, openHubo, and hubo-ach
Code
Running the code
1: Get the code from the Lofarolabs Simulation/archr_drc
$ git clone https://github.com/LofaroLabs/Simulation
2: Follow these steps:
$ cd /etc/hubo-ach $ sudo gedit virtualHubo.py
3: Locate the following lines:
if flag == 'nophysics': options.physics=False options.stop=False openhubo.TIMESTEP=ha.HUBO_LOOP_PERIOD print 'No Dynamics mode' else: options.physics=True options.stop=True #Enable simtime if required, or if force by physics options.simtime = (simtimeFlag == 'simtime') or options.physics
4: Add the following code directly under this last line:
options.scenefile = ('/home/archr/projects/archr_Code/Simulation/archr_drc/openrave/peginhole.env.xml');
- where 'archr/projects/archr_code/Simulation' is replaced with the directory where you saved the files.
5: Navigate to the Simulation/archr_drc/openrave folder and fix the directory locations within the following files as well:
- peginhole.env.xml
- in the objects folder:
- pegbox2.kinbody.xml
6: Connect the physical controller to the PC and power it on. 7: Run the openRAVE simulator with the command:
hubo-ach sim openhubo physics drc
- DRC is optional if you have the robot installed
8: Run the archr_drc.py file in the archr_drc/openrave folder and scan for dynamixels. If you can move the robot on screen with moving the dynamixel arms you have succeeded. 9: If the robot is in a stuck state from last time (or the simulator has frozen) try exiting the simulation (ctrl+z). Then run "hubo-ach killall" and wait a few seconds before starting it again.
Videos
- Video demonstration for the physical controller (the archr_drc.py script)
- Video demonstration for the keyboard controller (HuboKeyboardControl.py)
Valve-turn is in prototype stage, a sample environment is included in the link above. It can be selected by modifying the 'VirtualHubo.py' file located in the '/etc/hubo-ach' folder and selecting the line for valve-turn.
Building
- N/A
The Hubo-DRC successfully performed peg-in-hole with our control structure and could not quite complete valve-turn, however a prototype environment is included within the code. It can be selected in the virtualHubo.py file and then updating the file directory locations of the valve environment & object files to your workstation appropriately.