刘飞, 陈小平. 基于轨道能量模型的步行机器人平衡恢复方法[J]. 机器人, 2011, 33(2): 244-250..
LIU Fei, CHEN Xiaoping. Balance Recovery Method of Walking Robot Based on Orbital Energy Model. ROBOT, 2011, 33(2): 244-250..
Abstract:Concentrated on the danger of robot turnover caused by sudden external shocks during normal walking,a balance control method based on orbital energy model is presented,which introduces a regression model based on the robot's acceleration and other status information to predict the condition of being turnover,and uses both attitude compensation control and"taking a step"strategies to achieve balance recovery.Meanwhile,an offline learning method is used to model the relation between body state and optimized foothold to optimize theoretic foothold.In the experiment of AIBO robots,by this method,the frequency of turnover is reduced by more than half,locomotion efficiency is improved effectively,and thus the method's validity and feasibility are proved.
[1] Vukobmtovic M,Borovac B.Zero-moment point:Thirty five years of its life[J].International Journal of Humanoid Robotics,2004,1(1):157-173.
[2] Xajita S,Kanehiro F,Kaneko K,et al.Biped walking pattern generation by using preview control of zero-moment point[C]//IEEE International Conference on Robotics and Automation:vol.2.Piscataway,NJ,USA:IEEE,2003:1620-1626.
[3] Kajita S,Kanehiro F,Kaneko K,et al.The 3D linear inverted pendulum mode:A simple modeling for a biped walking pattern generation[C]//IEEE/RSJ International Conference on Intelligent Robots and Systems.Piscataway,NJ,USA:IEEE,2001:239-246.
[4] Kajita S,Yamaura T,Kobayashi A.Dynamic walking control of a biped robot along a potential energy conserving orbit[J[.IEEETransactions on Robotics and Automation,1992,8(4):431-438.
[5] Hofmann A.Robust execution of bipedal walking tasks from biomechanical principles[D].Cambridge,Massachusetts,USA:Massachusetts Institute of Technology,2005.
[6] Pratt J,Carff J,Drakunov S,et al.Capture point:A step toward humanoid push reeovery[C]//6th IEEE-RAS International Conference on Humanoid Robots.Piscataway,NJ,USA:IEEE,2006:200-207.
[7] Rebula J,Canas F,Pratt J,et al.Learning capture points for humanoid push recovery[C]//7th IEEE-RAS International Conference on Humanoid Robots.Piscataway,NJ,USA:IEEE,2007:65-72.
[8] Maiki B,Mcl'Lroy W.The role of limb movements in maintaining upright stance:The"change-in-support"strategy[J].Physical Therapy,1997,77(5):488-507.
[9] Atkeson C G,Stephens B.Multiple balance strategies from one optimization criterion[C]//7th IEEE-R A S Intemational Conference on Humanoid Robots.Piscataway,NJ,USA:IEEE,2007:57-64.
[10] Kudoh S,Komura T,Ikeuchi K.Stepping motion for a humanlike character to maintain balance against large perturbations[C]//IEEE International Conference on Robotics and Automation.Piscataway,NJ,USA:IEEE,2006:2661-2666.
[11] Buehler M,Playter R,Raibert M.Robots step outside[C[//International Symposium on Adaptive Motion of Animals and Machines.Lausanne,Switzerland:EPFL,2005.
[12] Raibert M,Blankespoor K,Nelson G,et al.Bigdog,the rough-terrain quaduped robot[C]//World Congress of International Federation of Automation Control.Heidelberg,Germany:Springer,2008.
[13] 庞皓,杨作廪.统计学[M].成都:西南财经大学出版社,2000.Pang H,Yang Z L.Statistics[M].Chengdu:Southwestern University of Finance and Economics Press,2000.
