Operation manual: Difference between revisions
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'''src/PITONlib.mdl''' - contains library blocks. This model is not meant to be run as is, it is just a container for the blocks. | '''src/PITONlib.mdl''' - contains library blocks. This model is not meant to be run as is, it is just a container for the blocks. More information about the different blocks is embedded in their masks. Double click on the blocks to view the info. | ||
* Vision | * Vision | ||
** Image acquisition from the camera | ** Image acquisition from the camera | ||
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* vision running at 25Hz | * vision running at 25Hz | ||
* motion running at 1000Hz | * motion running at 1000Hz | ||
== Running an experiment == | == Running an experiment == |
Revision as of 08:04, 28 October 2011
Back to: PITON steerable needle
All models and source code can be found in /home/PITON/.
Start Ubuntu
- Switch on the setup with the power button on the power socket
- Start the computer
- Choose the default Linux Kernel
- Log in as PITONuser with password PIT2011
Start MATLAB
- Open a terminal.
- Type sudo matlab with password PIT2011
Simulink models
Targets
Two different targets are used in the following models.
Generic Realtime Target (grt)
- Target is not Realtime, although its name suggests otherwise
- Cannot be used to control the ethercat stack
- All blocks within a scheme run at the same rate
- Can be used with external mode
Multi Threaded Target (mtt)
- Target is Realtime
- Can be used to control the ethercat stack
- Parts of the scheme can run at 1/n times the basic rate, n must be an integer
- Cannot be used with external mode
Models
fireCamCalibration/fireCamCalibrationModel.mdl - can be used to position the camera with respect to the needle and to determine appropriate settings.
- Run it with external mode to view the camera images.
- The red container marks the Region Of Interest (ROI).
- Position the camera and shape the ROI such that the all markers stay within the ROI during the experiments.
src/PITONlib.mdl - contains library blocks. This model is not meant to be run as is, it is just a container for the blocks. More information about the different blocks is embedded in their masks. Double click on the blocks to view the info.
- Vision
- Image acquisition from the camera
- Shape detection from the obtained images
- Motion
- Linear motor
- Conversion from force to voltage
- Tools
- Save signals to a .dat file
- Butterworth filter
template/PITONtmpl.mdl - a working template to use as a starting point for custom experiments. Copy it to another location before building and running it.
- uses the MTT target
- vision running at 25Hz
- motion running at 1000Hz
Running an experiment
General directions
- Build the Simulink model using ctrl+b (only necessary when changes are made or when directed to do so by MATLAB). Ensure that the working directory of MATLAB is the directory containing the model.
- Ensure the motor enable power switch is switched on, it must be turned to the right
- Open a terminal
- In terminal: Enable super user privileges by typing sudo su and using password PIT2011
- In terminal: Navigate to the directory containing the Simulink model
- In terminal: Run ./modelname
Hold your hand at the motor enable power switch to use it as an emergency switch if needed.
Grt specific
- When running ./modelname in a terminal, add -w to start simulation from Simulink.
- When running ./modelname in a terminal, add -tf inf to discard the simulation end time and run the simulation forever.
- When using external mode, ensure MATLAB's working directory is the directory containing the Simulink model