基于卡尔曼滤波和广义动量的机械臂笛卡尔接触力估计

2015 IEEE International Conference on Automation Science and Engineering (CASE) Pub Date : 2015-10-08 DOI:10.1109/CoASE.2015.7294266

Arne Wahrburg, Elena Morara, Gianluca Cesari, Björn Matthias, Hao Ding

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引用次数: 61

摘要

在笛卡尔空间中估计接触力和扭矩可以实现力控制机器人应用以及碰撞检测，而无需昂贵的额外传感。在分析机械手广义动量的基础上，提出了一种基于电机力矩、关节角和速度在线估计刀具中心点接触力和力矩的新方法。通过设计卡尔曼滤波器扩展现有的基于广义动量的方法，以同时估计广义动量、接触力和扭矩。这种方法在估计器的设计中引入了额外的自由度，利用这些自由度来增加相对于干扰(如关节摩擦中的不确定性)的鲁棒性。通过ABB YuMi双臂7DOF协作机器人的动力学模型仿真验证了该方法的有效性。

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Cartesian contact force estimation for robotic manipulators using Kalman filters and the generalized momentum

Estimating contact forces and torques in Cartesian space enables force-controlled robotic applications as well as collision detection without costly additional sensing. A new approach towards online estimation of contact forces and torques at the tool center point from motor torques as well as joint angles and speeds is presented, which is based on analyzing the generalized momentum of the manipulator. Existing generalized momentum based methods are extended by designing a Kalman filter to estimate the generalized momentum as well as contact forces and torques simultaneously. This approach introduces additional degrees of freedom in the design of the estimator that are exploited to increase robustness with respect to disturbances such as uncertainty in joint friction. The method is verified by simulation results obtained from a dynamic model of an ABB YuMi, a dual-arm collaborative robot with 7DOF each arm.

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2015 IEEE International Conference on Automation Science and Engineering (CASE)

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