论文信息 - The Effect of Swing Arms Posture Motion on Walking Straightness of Humanoid Robot

The Effect of Swing Arms Posture Motion on Walking Straightness of Humanoid Robot

The study of humanoid robot locomotion has been focusing on the development of walking pattern generation. However, the robot has the possibility of slipping on the ground due to the simultaneous occurrence of translational and rotational motions as a robot is walking. Technically, both issues disrupt the walking straightness of the robot. This study investigates the influence of the robot swing arms posture with a modified walking pattern generation to minimize the problem. Simulations were done by preparing 10 different elbow joint angles with swing arms and each one of them were tested with the same value of Maximum Lifting Height, H. The analysis was done by collecting the data from the Global Positional Sensor (GPS) from the robot and calculating the Root Mean Square Error (RMSE) to determine which variable has the lowest percentage of RMSE. The angular velocity graph was used to analyze the deviation encountered by the robot while walking by determining the average of angular velocity. The results showed that the arm posture of the robot does influence its walking straightness in a small amount.

[1] E. Zehr,et al. Regulation of Arm and Leg Movement during Human Locomotion , 2004, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.

[2] Chi Zhu,et al. Yaw moment compensation of biped fast walking using 3D inverted pendulum , 2008, 2008 10th IEEE International Workshop on Advanced Motion Control.

[3] Muhammad Fahmi Miskon,et al. PARAMETER STUDY OF STABLE WALKING GAITS FOR NAO HUMANOID ROBOT , 2013 .

[4] Prahlad Vadakkepat,et al. Genetic algorithm-based optimal bipedal walking gait synthesis considering tradeoff between stability margin and speed , 2009, Robotica.

[5] H Elftman,et al. The function of the arms in walking , 1939 .

[6] Nima Shafii,et al. An optimized gait generator based on fourier series towards fast and robust biped locomotion involving arms swing , 2009, 2009 IEEE International Conference on Automation and Logistics.

[7] Atsuo Kawamura,et al. What Is the Real Frictional Constraint in Biped Walking? - Discussion on Frictional Slip with Rotation , 2006, 2006 IEEE/RSJ International Conference on Intelligent Robots and Systems.

[8] Jong-Hwan Kim,et al. HUMANOID ROBOT HANSARAM: YAWING MOMENT CANCELLATION AND ZMP COMPENSATION , 2005 .

[9] R. Hinrichs. Whole Body Movement: Coordination of Arms and Legs in Walking and Running , 1990 .

[10] Martijn Wisse,et al. A Three-Dimensional Passive-Dynamic Walking Robot with Two Legs and Knees , 2001, Int. J. Robotics Res..