Difference between revisions of "Kinematic Trajectory and Force Capture System"
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* Laptop: Anything that runs Ubuntu and has a firewire port. Four pin firewire port will require a hub and external power to provide power to the DragonFly. | * Laptop: Anything that runs Ubuntu and has a firewire port. Four pin firewire port will require a hub and external power to provide power to the DragonFly. | ||
* Mount for the DragonFly: See Image and the CAD Models. | * Mount for the DragonFly: See Image and the CAD Models. | ||
| − | * Hook | + | * Handheld Hook: See images and the CAD Models. |
| + | <gallery caption="Handheld Hook" widths="150px" perrow="5"> | ||
| + | File:hook_handheld.JPG| | ||
| + | File:hook_checkerboard_1.JPG| | ||
| + | File:hook_checkerboard_2.JPG| | ||
| + | File:hook_checkerboard_3.JPG| | ||
| + | </gallery> | ||
| + | |||
* Checkerboard patterns: Checked into the subversion repository with all the code. | * Checkerboard patterns: Checked into the subversion repository with all the code. | ||
* Force Torque Sensor: ATI Nano 25 with a calibration of SI-125-3 and the Controller F/T System ([http://www.ati-ia.com/products/ft/ft_models.aspx?id=Nano25 link]) | * Force Torque Sensor: ATI Nano 25 with a calibration of SI-125-3 and the Controller F/T System ([http://www.ati-ia.com/products/ft/ft_models.aspx?id=Nano25 link]) | ||
Revision as of 16:49, 13 July 2010
Contents |
Author
Advait Jain (http://www.cc.gatech.edu/~advait)
What this does
This page describes the capture system that we designed to log the kinematic trajectory through which mechanisms (doors and drawers) move and the forces used to operate them.
We first used this setup in this paper: The Complex Structure of Simple Devices: A Survey of Trajectories and Forces that Open Doors and Drawers. Advait Jain, Hai Nguyen, Mrinal Rath, Jason Okerman, and Charles C. Kemp. IEEE RAS/EMBS International Conference on Biomedical Robotics and Biomechatronics (BIOROB), 2010. This paper and others can be downloaded from the Heathcare Robotics Lab website (http://www.healthcare-robotics.com)
Picture of the Setup
Hardware
This is the hardware setup that we use:
- Camera: Point Grey DragonFly2 with remote head
- Lens: Varifocal Video Lens 4mm - 12mm (Stock Number: NT58-365) ($150.00) link
- Tripod for the camera.
- Studio Lights
- Laptop: Anything that runs Ubuntu and has a firewire port. Four pin firewire port will require a hub and external power to provide power to the DragonFly.
- Mount for the DragonFly: See Image and the CAD Models.
- Handheld Hook: See images and the CAD Models.
- Handheld Hook
- Checkerboard patterns: Checked into the subversion repository with all the code.
- Force Torque Sensor: ATI Nano 25 with a calibration of SI-125-3 and the Controller F/T System (link)
Code
- ROS (http://www.ros.org)
- You will need the following ROS packages from our public ROS repository (available at http://code.google.com/p/gt-ros-pkg/wiki/hrl_content_summary)
