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  1. Commands
  2. ROS API

This package provides python drivers and ROS nodes for ATI nano 25 (with ATI provided controller F/T system), and AMTI HE6x6 force plate. The standalone driver for ATI nano 25 is in src/force_torque/FTSensor.py, and for the AMTI force plate src/force_torque/AMTIForce2.py .

To run the ATI FT ROS node first run force_torque_relay then force_torque_poller. force_torque_poller continuously receives data and sets it on the associated force_torque_relay. force_torque_relay takes this data then broadcasts it to all client. In this case, an intermediary force_torque_relay is required because force_torque_poller needs to poll the sensor extremely quickly without arbitrary delay. Having force_torque_relay makes this extremely difficult.

The force plate server, however, can be launched with just force_plate_server. Interfacing with it client side can be done using the same class FTClient.py (force_torque_client)


force_torque_poller and force_torque_relay both takes a "--name" parameter for the user given name of the FT device. It is not important what these are, but it's important that the names given to these two nodes match. This parameter is then used mainly to for the two to communicate via ROS. force_torque_poller takes a --path argument to find the system path to the given FT device.

To actually get data follow the sample code in force_torque_client's main block.

Sample launch sequence:

./force_torque_relay --name=ft1 $ ./force_torque_poller --name=ft1 --path=/dev/robot/fingerFT1


2024-07-13 13:16