SAW wrapper for Force Dimension haptic devices - the ForceDimension SDK happens to support the devices manufactured by ForceDimension (Sigma, Omega, ...) as well as the Novint Falcon. This code compile on Linux and Windows. This repositor provides a core component as well as:
- Example application with Qt based GUI
- ROS node (also with Qt based GUI)
- ROS based python client
- License: http://github.com/jhu-cisst/cisst/blob/master/license.txt
- JHU-LCSR software: http://jhu-lcsr.github.io/software/
- cisst libraries: https://github.com/jhu-cisst/cisst
- Force Dimension SDK. Downloaded from the manufacturer's web site: http://www.forcedimension.com/download/sdk
- Qt for user interface
- ROS and ROS CRTK (optional) - works with ROS 1 and ROS 2!
The following instructions allow to avoid using sudo to access the USB device. We use a udev rule to set the permission and optionally an owner/group. The following example simply allows anyone to read/write using the permissions 666.
Using dmesg, we can find the vendor Id right afer the device is turned on:
[478324.211029] usb 2-1.5: Product: omega.x haptic device
[478324.211033] usb 2-1.5: Manufacturer: FD 3.0
[478385.766668] usb 2-1.5: USB disconnect, device number 23
[478392.620604] usb 2-1.5: new high-speed USB device number 24 using ehci-pci
[478393.276357] usb 2-1.5: New USB device found, idVendor=1451, idProduct=0402
[478393.276360] usb 2-1.5: New USB device strings: Mfr=1, Product=2, SerialNumber=0For a Novint Falcon, the vendor Id might be different. For example:
[2674365.004455] usb 1-1.4: New USB device found, idVendor=0403, idProduct=cb48
[2674365.004464] usb 1-1.4: Product: FALCON HAPTICBecome superuser
sudo su -then create rule:
# go to udev rules directory
cd /etc/udev/rules.d/
# create files with new rules
echo "SUBSYSTEM==\"usb\", ATTRS{idVendor}==\"1451\", MODE=\"0666\"" > 80-usb-force-dimension.rules
echo "SUBSYSTEM==\"usb\", ATTRS{idVendor}==\"0403\", MODE=\"0666\"" > 80-usb-novint.rules
# restart udev
udevadm control --reload-rulesOnce this is done, test the provided examples in the SDK bin folder. You should be able to run them without sudo.
You can find some documentation re. compiling cisst and SAW components for in the dVRK wiki:
For Linux with ROS, we provide a VCS files to retrieve all the git repositories you need for sawForceDimensionSDK in the vcs directory.
When compiling the SAW Force Dimension code, you will need to specify
where to find the Force Dimension SDK. Do a first catkin build,
this build will skip sawForceDimensionSDK because the directory
containing the SDK is not known. To define it, use ccmake in a
shell/terminal that has all the ROS environment variables defined (DO
NOT USE cmake-gui, for some reasons, it ignores the environment
variables) on the build directory for the SAW Force Dimension
component. For example:
adeguet1@lcsr-qla:~/catkin_ws$ ccmake build/saw_force_dimension_sdkIn the command above, the ROS workspace is ~/catkin_ws and the build tree is build.
Once in CMake, locate force_dimension_sdk_DIR and make it point to
the directory containing your SDK. For example,
~/ForceDimension/sdk-3.6.0. Hit configure once and the two
variables force_dimension_sdk_LIBRARY_DHD and
force_dimension_sdk_LIBRARY_DRD should have been found
automatically.
Don't forget to hit "Generate" before quitting CMake. You should now
be able to build using catkin build --force-cmake. The option
--force-cmake is required to force CMake to run for all packages
that depends on the sawForceDimensionSDK package.
Once the packages are all built, you must first refresh your ROS
environment using source ~/catkin_ws/devel/setup.bash.
Please read the ROS 1 section first. As for ROS 1,
sawForceDimensionSDK will fail to build until you specify the path
force_dimension_sdk_DIR. After your first colcon run, use ccmake ~/ros2_ws/build/sawForceDimensionSDKCore. You will then be able to
specify the SDK path (see ROS 1 section). After you configure, you
will need to run colcon with the option --cmake-force-configure .
The main example provided is sawForceDimensionSDKQtExample. The command line options are:
sawForceDimensionSDKQtExample:
-j <value>, --json-config <value> : json configuration file (optional)
-m, --component-manager : JSON files to configure component manager (optional)
-D, --dark-mode : replaces the default Qt palette with darker colors (optional)To run the example with a configuration file, use:
sawForceDimensionSDKQtExample -j myconfig.jsonThe configuration file can be used to rename the devices based on their serial number. Note that for the Novint Falcon the SDK in unable to find the serial number so you have to use the serial number 0:
{
"devices":
[
{
"name": "left",
"serial": 0
}
,
{
"name": "right",
"serial": 0
}
]
}If you also want to use the ROS node for ROS 1, run:
rosrun force_dimension force_dimensionFor ROS 2, run:
ros2 run force_dimension force_dimensionA simple ROS client is provided in this package. Once the ROS force_dimension node is started, one can do (in Python):
import crtk, force_dimension
ral = crtk.ral('test')
f = force_dimension.arm(ral, 'Falcon00') # use rostopic list to verify device's name
# get the current cartesian position
p = f.measured_cp()
p
[[ 1, 0, 0;
0, 1, 0;
0, 0, 1]
[ -0.040937, -0.00489694, 0.0107565]]
# apply a 5 newton force in x direction
f.body.servo_cf([5.0, 0.0, 0.0, 0.0, 0.0, 0.0])
# reset the force to zero
f.body.servo_cf([0.0, 0.0, 0.0, 0.0, 0.0, 0.0])We also provide a simple script to demonstrate motions in x, y and z
directions. After you started the ROS node force_dimension force_dimension, you can run the script/node force_dimension xyz-motions.py (e.g. for ROS 2 ros2 run force_dimension xyz-motions.py -a /Falcon00).
Besides ROS, the ForceDimension component can also stream data to your application using the sawOpenIGTLink or sawSocketStreamer components. See:
- The current code sometimes fails to properly initialize the Novint
Falcon. To initialize it, you can use the example
encodersprovided in thebindirectory for the SDK.