Governing Equation Identification Of Nonlinear Single Degree-Of-Freedom Oscillators With Coulomb Friction Using Explicit Stick And Slip Temporal Constraints

S. Mahajan, A. Cicirello
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Abstract

The friction force at joints of engineering structures is usually unknown and not directly identifiable. This contribution explores a procedure for obtaining the governing equation of motion and correctly identifying the unknown Coulomb friction force of a mass-spring-dashpot system. In particular, a Single-Degree-of-Freedom system is investigated both numerically and experimentally. The proposed procedure extends the state-of-the-art data-driven SINDy algorithm by developing a methodology that explicitly imposes constraints encoding knowledge of the non-smooth dynamics experienced during stick-slip phenomena. The proposed algorithm consists of three steps: (i) data segregation of mass-motion from mass-sticking during stick-slip response; (ii) application of SINDy on the mass-motion dataset to obtain the functional form of the governing equation; and (iii) applying sticking and slipping conditions to identify the unknown system parameters. It is shown that the proposed approach yields an improved estimate of the uncertain system parameters such as stiffness, damping, and magnitude of friction force (all mass normalized) for various signal-to-noise ratios compared to SINDy.
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基于显式粘滑时间约束的库仑摩擦非线性单自由度振子控制方程辨识
工程结构节点处的摩擦力通常是未知的,也不能直接识别。本文探讨了一种获得质量-弹簧-阻尼器系统的运动控制方程和正确识别未知库仑摩擦力的方法。特别对单自由度系统进行了数值和实验研究。提出的程序扩展了最先进的数据驱动SINDy算法,开发了一种明确施加约束的方法,编码了在粘滑现象期间经历的非光滑动力学知识。本文提出的算法包括三个步骤:(1)粘滑响应过程中质量运动和质量粘滞的数据分离;(ii)在质量运动数据集上应用SINDy,得到控制方程的函数形式;(3)应用粘滞滑移条件辨识未知系统参数。结果表明,与SINDy相比,所提出的方法对各种信噪比的不确定系统参数(如刚度、阻尼和摩擦力大小(所有质量归一化))的估计得到了改进。
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CiteScore
5.20
自引率
13.60%
发文量
34
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