A hysteresis model and parameter identification for MR pin joints using immune particle swarm optimization

机译：基于免疫粒子群算法的MR销钉接头磁滞模型与参数辨识

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A novel hybrid model is proposed in this paper to describe the highly-nonlinear hysteretic relationship between the torque and angular velocity in a magnetorheological pin joint (MRP). The MRP's hysteresis loop is modelled by a mixture of hyperbolic and Gaussian functions using the curve fitting technique, resulting in a significant reduction of the model parameters. To identify the model parameters, an immune particle swarm optimization (IPSO) algorithm is employed using torque-angular displacement/velocity experimental data recorded under various loading conditions. To demonstrate the accuracy of the proposed model and the effectiveness of parameter identification process, characterization test data of the smart pin torque and angular velocity are utilized for comparison.

机译：本文提出了一种新型的混合模型来描述磁流变销接头（MRP）中转矩与角速度之间的高度非线性磁滞关系。 MRP的磁滞回线使用曲线拟合技术由双曲线和高斯函数的混合进行建模，从而显着降低了模型参数。为了识别模型参数，使用了在各种载荷条件下记录的扭矩-角位移/速度实验数据的免疫粒子群优化（IPSO）算法。为了证明所提出模型的准确性和参数识别过程的有效性，利用智能销扭矩和角速度的表征测试数据进行比较。

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《IEEE International Conference on Automation Science and Engineering》|2015年|1319-1324|共6页
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Royel S.; Yu Y.; Li Y.; Li J.; Ha Q.P.;
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4. A hysteresis model and parameter identification for MR pin joints using immune particle swarm optimization [C] . Royel S., Yu Y., Li Y., IEEE International Conference on Automation Science and Engineering . 2015

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A hysteresis model and parameter identification for MR pin joints using immune particle swarm optimization

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