A geometric characterization of observability in inertial parameter identification

Patrick M. Wensing, Günter Niemeyer, Jean-Jacques E. Slotine
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Abstract

This paper presents an algorithm to geometrically characterize inertial parameter identifiability for an articulated robot. The geometric approach tests identifiability across the infinite space of configurations using only a finite set of conditions and without approximation. It can be applied to general open-chain kinematic trees ranging from industrial manipulators to legged robots, and it is the first solution for this broad set of systems that is provably correct. The high-level operation of the algorithm is based on a key observation: Undetectable changes in inertial parameters can be represented as sequences of inertial transfers across the joints. Drawing on the exponential parameterization of rigid-body kinematics, undetectable inertial transfers are analyzed in terms of observability from linear systems theory. This analysis can be applied recursively, and lends an overall complexity of O( N) to characterize parameter identifiability for a system of N bodies. Matlab source code for the new algorithm is provided.
惯性参数识别中可观测性的几何特征
本文介绍了一种从几何角度描述铰接式机器人惯性参数可识别性的算法。几何方法仅使用一组有限条件,无需近似,即可测试无限配置空间中的可识别性。该方法可应用于从工业机械手到腿部机器人的一般开链运动学树,并且是首个可证明正确性的广泛系统解决方案。该算法的高级运行基于一个关键观察结果:无法察觉的惯性参数变化可以表示为跨关节的惯性转移序列。利用刚体运动学的指数参数化,从线性系统理论的可观测性角度对不可检测的惯性转移进行了分析。这种分析可以递归应用,并以 O( N) 的总体复杂度来描述由 N 个体组成的系统的参数可识别性。本文提供了新算法的 Matlab 源代码。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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