TY - GEN
T1 - Foot pressure control based on extraction of environment mode
AU - Suzuki, Tomoyuki
AU - Ohnishi, Kouhei
PY - 2006/12/1
Y1 - 2006/12/1
N2 - In walking motion of biped robots, Zero Moment Point (ZMP) is treated as important. ZMP is a stability index and keeping ZMP in the stable region is important for biped robots to walk. In this paper, foot pressure control based on extraction of environment mode is proposed as a ZMP stabilizing control. Environment mode is representation of connection between the robot and the environment. In this control, the reaction force acting on the sole from the ground are extracted as environment mode. By controlling foot pressure according to environment mode, ZMP is kept in the stable region. Conventional mode control is not able to be applied to the movement of desired ZMP. However, the proposed control is able to deal with the movement by generating mode command from ZMP reference trajectory, which is desired ZMP trajectory. The error between mode command and mode response is suppressed by mode compliance control. The validity of the proposed method is confirmed by simulations and experiments. In human walking motion, ZMP moves from heel to tip in single support phase. With the proposed environment mode control, the robot is able to walk stably adapting such a ZMP reference trajectory.
AB - In walking motion of biped robots, Zero Moment Point (ZMP) is treated as important. ZMP is a stability index and keeping ZMP in the stable region is important for biped robots to walk. In this paper, foot pressure control based on extraction of environment mode is proposed as a ZMP stabilizing control. Environment mode is representation of connection between the robot and the environment. In this control, the reaction force acting on the sole from the ground are extracted as environment mode. By controlling foot pressure according to environment mode, ZMP is kept in the stable region. Conventional mode control is not able to be applied to the movement of desired ZMP. However, the proposed control is able to deal with the movement by generating mode command from ZMP reference trajectory, which is desired ZMP trajectory. The error between mode command and mode response is suppressed by mode compliance control. The validity of the proposed method is confirmed by simulations and experiments. In human walking motion, ZMP moves from heel to tip in single support phase. With the proposed environment mode control, the robot is able to walk stably adapting such a ZMP reference trajectory.
UR - http://www.scopus.com/inward/record.url?scp=51349149942&partnerID=8YFLogxK
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U2 - 10.1109/ICIT.2006.372545
DO - 10.1109/ICIT.2006.372545
M3 - Conference contribution
AN - SCOPUS:51349149942
SN - 1424407265
SN - 9781424407262
T3 - Proceedings of the IEEE International Conference on Industrial Technology
SP - 1332
EP - 1337
BT - 2006 IEEE International Conference on Industrial Technology, ICIT
T2 - 2006 IEEE International Conference on Industrial Technology, ICIT
Y2 - 15 December 2006 through 17 December 2006
ER -