TY - JOUR
T1 - Planning walking patterns for a biped robot
AU - Huang, Qiang
AU - Yokoi, Kazuhito
AU - Kajita, Shuuji
AU - Kaneko, Kenji
AU - Aral, Hirohiko
AU - Koyachi, Noriho
AU - Tanie, Kazuo
PY - 2001/6
Y1 - 2001/6
N2 - Biped robots have better mobility than conventional wheeled robots, but they tend to tip over easily. To be able to walk stably in various environments, such as on rough terrain, up and down slopes, or in regions containing obstacles, it is necessary for the robot to adapt to the ground conditions with a foot motion, and maintain its stability with a torso motion. When the ground conditions and stability constraint are satisfied, it is desirable to select a walking pattern that requires small torque and velocity of the joint actuators. In this paper, we first formulate the constraints of the foot motion parameters. By varying the values of the constraint parameters, we can produce different types of foot motion to adapt to ground conditions. We then propose a method for formulating the problem of the smooth hip motion with the largest stability margin using only two parameters, and derive the hip trajectory by iterative computation. Finally, the correlation between the actuator specifications and the wal king patterns is described through simulation studies, and the effectiveness of the proposed methods is confirmed by simulation examples and experimental results.
AB - Biped robots have better mobility than conventional wheeled robots, but they tend to tip over easily. To be able to walk stably in various environments, such as on rough terrain, up and down slopes, or in regions containing obstacles, it is necessary for the robot to adapt to the ground conditions with a foot motion, and maintain its stability with a torso motion. When the ground conditions and stability constraint are satisfied, it is desirable to select a walking pattern that requires small torque and velocity of the joint actuators. In this paper, we first formulate the constraints of the foot motion parameters. By varying the values of the constraint parameters, we can produce different types of foot motion to adapt to ground conditions. We then propose a method for formulating the problem of the smooth hip motion with the largest stability margin using only two parameters, and derive the hip trajectory by iterative computation. Finally, the correlation between the actuator specifications and the wal king patterns is described through simulation studies, and the effectiveness of the proposed methods is confirmed by simulation examples and experimental results.
KW - Actuator specification
KW - Biped robot
KW - Stability
KW - Uneven ground
KW - Walking pattern generation
UR - http://www.scopus.com/inward/record.url?scp=0035356995&partnerID=8YFLogxK
U2 - 10.1109/70.938385
DO - 10.1109/70.938385
M3 - Article
AN - SCOPUS:0035356995
SN - 1042-296X
VL - 17
SP - 280
EP - 289
JO - IEEE Transactions on Robotics and Automation
JF - IEEE Transactions on Robotics and Automation
IS - 3
ER -