Difference: RunWalk (8 vs. 9)
Revision 92006-03-22 - HagitSchechter
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| The results seem interesting, I hope that we'll be treated to a video during the presentation today. I share Ken's confusion about the scaling factors (wrt to velocity and time). That table is neat in showing that it's not straightforward to scale a dynamic creature as one would maybe expect. On page 355 they note that they're assuming an infinited coefficient of friction to prevent slipping, but that in actuality, their models need a relatively small (?) coefficient to accomplish this. I can't remember much about the magnitudes of realistic coefficients of friction, so are the figures they quote indeed "realistic"? -- Main.Daniel Eaton | ||||||||
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| > > | (Animation of Dynamic Legged Locomotion) The authors state that the motions described in the paper are physically realistic. It is hard to tell without seeing a animation, but I am guessing that control methods as well as any other method could generate a non-realistic motion, and it is up to the implementation to dictate the motion “quality”. It would be interesting for me to discuss/analyze that point. Another question is whether physicaly based motion is a realistic one and vice versa. – Hagit Schechter | |||||||
Paper TwoJoseph Laszlo, Michiel van de Panne, and Eugene Fiume. Limit cycle control and its | ||||||||
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| I liked the result of this paper in that it was able to apply control techniques to an articulated figure with a higher number of DOF (19). The previous paper only applied the control algorithms to models with a few DOF, which further limited their realism. I would like to know more about the selection of the regulation variables. Specifically, is this something that is done once for one class of closed-loop motion (e.g., I'll use swing COM for running) or does it have to be done for every motion? Also, the paper mentions that "the evidence for the above linear approximation is empirical". Are there closed loop motions for which perturbations result in non-linear effects? Finally, are there videos of the final animations? The paper mentions that the results still do have a robotic feel to them for the case of the 4 pose FSM. -- KenRose | ||||||||
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| > > | (Limit cycle control) I am interested to learn if there have been significant results in controlling complex / less stable types of motion such as running. Also, I assume that control techniques are used in robotics research as well, and am interested to compare the different challenges and results in the two areas. -- Hagit Schechter | |||||||
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