I would ike to start a new aproach for making the following functions available in the InMoov service:
i01.headTracking.followLeftHand
i01.eyesTracking.followLeftHand
i01.headTracking.followRightHand
i01.eyesTracking.followRightHand
There has been some talk about kinematics for InMoov in the forum but afaik not an agreement or complete description of:
- center point
- agreement of directions to use
- definition of distances
- chain of links
I tried to read the "studywolf"s description and examples of inverse kinematics and to extend his 3 section example arm into an InMoov model.
https://studywolf.wordpress.com/2013/04/11/inverse-kinematics-of-3-link…
Basically it uses 3 parameter arrays for each of the joints
- initial joint angle
- resting state joint angle (for minimizing movements in the joint link to reach a position)
- the arm segment length
Using a W10 64 bit PC and Anaconda 2.7 I was finally able to get his example work (including many hours getting numpy to work).
Of course I am stuck now at how to extend his example into an InMoov model but wondered whether I could find any other member interested in this subject?
And my far out vision of it? Tell InMoov to move his hand to a given (x,y,z) position and based on speed and joint angles to have the eyes follow the hand? Or go through a sequence of such points? Or tell it to grab something at a given location?
I spent quite some time reusing Gaël's example of passing a ball from one hand into the other. It worked only occasionally and with a finely tuned fixed scenario of movements.
Having new functions available we could probably say:
- leftHand.moveTo(Pos1)
- leftHand.open [for placing the object on the hand (it's a self levelling hand, so it will not drop the object :-) ]
- leftHand.moveTo(Pos2)
- rightHand(moveTo(Pos2+z-offset)
- rightHand.close
InverseKinematics3D service...
Juerg,
Have you checked out my implementation of the InverseKinematics for the InMoov arm? You can see it in the web gui by starting the InverseKinematics3D service. It uses D-H parameters to describe the linkages in the InMoov arm. Basically, you can give the IK3D service a point in space and it will attempt to move the joints to get to that point. You can draw a straight line with the InMoov hand.
Here's an example script that shows how it works.
https://github.com/MyRobotLab/pyrobotlab/blob/master/home/kwatters/InMo…
I have more examples..
http://myrobotlab.org/content/joystick-control-inverse-kinematics-servi…
http://myrobotlab.org/content/leap-motion-service-and-webgui-update
and more info about it here:
http://myrobotlab.org/content/d-h-parameters-and-inmoov-kinematic-model
Looking at a point in space
Once you have the inverse kinematics working and can move the hand to a particular coordinate, calculating the angles for the "neck" and" "rothead" Inmoov servos to move the head to look at that point should be simple trigonometry.
Here is a discussion of that:
http://stackoverflow.com/questions/1251828/calculate-rotations-to-look-at-a-3d-point
Scruffy-bob
thanks for all the links, I
thanks for all the links, I know now where to start and experiment
Edit: tried to see what is going on in the source code. I see a InverseKinematics3D.java class but could not find where the InMoov geometry is fed into the calculations?
Edit 2: @Kevin, did you create an InMoov robot definition for the RoboAnalyzer and if so are you willing to share it?
InMoovArm and RobotAnalyzer / MRPT
Hi Juerg,
I'm more than happy to share it.
The DH Parameters are part of the InMoovArm class.
https://github.com/MyRobotLab/myrobotlab/blob/develop/src/org/myrobotla…
I used the RobotAnalyzer, but as it turns out , I wasn't super happy with it. I found "MRPT" to be much better for working out the DH params of the arm:
http://www.mrpt.org/
My approach to solving the InverseKinematics is based on the "Introduction to Robotics" lectures on youtube from Stanford University and the book "Planning Algorithms" http://planning.cs.uiuc.edu/ ... In particular I used the "homogeneous transformation matrix" http://planning.cs.uiuc.edu/node104.html
.. based on this, I do a numeric approximiation of the pseudo inverse of the jacobian matrix... Using that, there's an iterative algorithm that moves the hand towards the desired goal ...
The math can be a bit scary, but, (to my surprise), it works :)
Good luck! Let me know if you have any questions about the code.. it's a little hacky now, but the basic fundamentals are all in place.
thanks, found the DHLink
thanks, found the DHLink initialization in the InMoovArm
but then this won't take the upper body turn, the stomag bending and all he head movements into account? So it would need to "add" the arm position into the arm connection point based on these 2 movements and we would need to evaluate also the eye positions?
Assuming these 2 <x>-related positions are known I can't really see the path to align the eyes to the left/right hand - but I have to commit that I do know very little of these things and will need to experiment and learn first a lot about it!
Current Kinematic Model
Hi Juerg,
The current kinematic model assumes the shoulder is the base of the arm. The rotation point about the shoulder is the origin. the Z axis goes forward/backward. Y axis is up/down , x axis is left/right (with respect to the shoulder) DH parameters define any arbitrary robot arm of any number of links.
If you want the InMoov head to look at it's hand and follow it, I would suggest looking at the head tracking stuff with OpenCV ... Handle the eye alignment the same way as the face tracking...
-Kevin
Tried to look at the source
Tried to look at the source code and think I can get the current palm point position in relationi to the shoulder attach point from InversKinematics3D.currentPosition (after assigning the arm I am interested in with setCurrentArm as in your python code example)?
Tried to look then into OpenCV but have to commit that I couldn't learn anythiing from it in relation to a proper moveTo command for neck, rothead, eyeX and eyeY.
But thought then by calculating the rothaed rotation point in relation to the arm connector and using the palm point retrieved from the ik-service I could calculate the proper angle for rothead? And similarly the neck angle? And use straight eye positions?
I found out that I am not very practised with these calculations but if you think it could work out I for sure will give it a try. I assume I could do that in the python script?
Head tracking vs computing
Hi Juerg,
The InMoov head has the ability to use the webcamera to keep a point in the center of the screen. This is called head tracking. It uses LK Optical Tracking and a PID controller. The webcam with OpenCV will track a point that it's looking at and the PID controller will move the servos to ensure that the point stays in the middle of the screen. It's probably a lot easier than trying to calibrate and compute the angles that you want the head/neck to be at.
I did play around with LK and
I did play around with LK and head tracking for quite a while and also changed PID settings and all and even had a few direct conversations with Ale.
However - with my setups I found the tracking to be rather poor, especially up/down was almost impossible and following a red ball lost track regularly after a few motions (I use an odroid XU4 controlling InMoov and the frame rate of the camera is around 20 shots a second).
Anyway - you propose to have the LK-tracking set to my current hand position and then let LK do the tracking? But it will for sure loose control when I turn my hand 90 or 180 degree or even move into a position the standard InMoov eye will not be able to point to?
Will give a try to my rather calculated way of tracking and let you know.
OpenCV Tracking
Hi Juerg
I think you can learn more from the Tracking service than the OpenCV service.
/Mats
@Kevin I have this code now
@Kevin
I have this code now in my mrl-python-script