Football Table Motion

From Control Systems Technology Group
Jump to navigation Jump to search
The printable version is no longer supported and may have rendering errors. Please update your browser bookmarks and please use the default browser print function instead.


Here we explain MOTION.mdl (aliases/alternate versions: MOTION_demo.mdl, MOTION_exp.mdl, MOTION_demo.mdl and MOTION_test.mdl). MOTION.mdl is compiled as an external and hence you run in from a terminal (as a super user). Compilation is done by running make.m, which is located in the main folder.

The three different version all serve different needs, to use one: save them as MOTION.MDL and compile

Demonstration ready, uses only old code (no Reinforcement learning and a simple policy).
Used for frf-measurements, this by-passes homing and safety, so make sure to center all rods before running. Secondly, check to see if there are actually weak controllers set in this file. The output of this file is the same as all of the variant, a log file called MOTION.mat. An m-file which processes the data can be found in the ../tools folder(determines all transfer functions), you can use the output for loopshaping with i.e.: shape-it.
Experimental version, this file is kept to test new systems e.g. new moves etc.
Simulator version, use this file for generating experience. More on this can be found here.



Enable/Disable Rods

In this subsystem one can disable rods from moving at all, or just allowing them to home. It is recommend to first attempt homing before running the system in its entirety. Do disable/enable rods all you have to do is double-click on them.

Enable and disable rods in this dialog.

Reference generation dialog

In the reference generation dialog we can alter/tweak the homing position and the reference saturation.

Reference generation dialog

Rod number
Number index of the rod, starting with the goal-keeper being rod 1.
Rotational Homing position
Amount of degrees the puppet needs to rotate (for it to be upright) after detecting the homing sensor.
Rotational Homing Velocity
Speed at which to perform the rotational homing.
Translational Homing position.
This is the translation necessary to move to a central positron after hitting the end of its stroke(/side of the table).
Translational Homing Speed
Speed at which to perform the translational homing
Error in translation to determine homing point
This is a threshold, when the error becomes larger then this it assumes it has hit a wall.
Translational saturation
Absolute value at which to saturate the translational reference signal so not to hit the sides.

Safety dialog

The safety has been put in to saturate the output for both the translational and rotational controller. Once it exceeds this value it will be set to zero.

Safety dialog
Rod number
Same as before
Maximum rotational voltage
Absolute maximum value of the control signal for rotational controller
Maximum translation voltage
Absolute maximum value of the control signal for translational controller
Maximum rotation
Maximum value of sensor read-outs, if this is exceeded it assumes failure and stops the executable (stop excessive spinning when stability is lost).
Maximum transalation
Maximum value of sensor read-outs, if this is exceeded it assumes failure and stops the executable (happens e.g. a cable snaps).


As said, building the file is really easy and is done using make.m. If this executes properly it will create an executable called MOTION in the main folder. This file currently requires Matlab R2011a (or below), as it makes use of a piece of code which is deprecated in later versions (see `Termination Block' in the simulink model).


When running the external, first homing will take place (apart from MOTION_frf). I recommend first attempting just to home it, by using the enable/disable options explained earlier. Once this is done, it will run until you stop it using ctrl+c, the final time is reached or when the emergency stop is used( not recommended as a default).


libmotion_tools is a small library created for common calculations performed on the table; puppet selection, intersection point calculation, et cetera. It functions using a class, this class has private variables that remembers what puppet is currently selected. The latter is really useful to avoid hectic switching of puppets in twilight zones.

In this section we shortly describe how to use this library.

Actions and Action selection

Attractor dynamics


Action selection