采用动态建模和观测器联合方法对软致动器进行状态估计

IF 4.6 2区 计算机科学 Q2 ROBOTICS
Huichen Ma;Junjie Zhou;Chen-Hua Yeow;Lijun Meng
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引用次数: 0

摘要

为了大幅降低状态估计误差并提高收敛速度,确保实时响应性和计算效率,本文提出了一种结合动态建模和观测器的联合方法,以实现对功能软执行器的精确非线性状态估计。首先,受粘弹性模型的启发,研究了外部条件下气动网络软执行器二维动态建模的一般框架。通过尺寸分析方法推导出了软执行器弯曲变形的无量纲动态模型。然后,使用自适应扩展卡尔曼粒子滤波器(aEKPF)进行状态估计。它可以抑制来自压力传感器的噪声,减少来自速率陀螺仪的漂移误差。利用软致动器和软爬行实验评估了非线性姿态估计与传统控制方法相结合的闭环性能。结果表明,aEKPF 可以从噪声传感器测量结果中准确估计状态。与传统的 EKF 相比,aEKPF 在状态估计误差和收敛速度方面提高了 50% 以上。同时,在直线爬行测试中,不同环境下的平均中心点偏移小于软爬行模块宽度的 3%,验证了该策略在精确状态估计和稳定性控制方面的有效性和鲁棒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
State Estimation by Joint Approach With Dynamic Modeling and Observer for Soft Actuator
In order to achieve a significant reduction in state estimation error and improved convergence speed, ensuring real-time responsiveness and computational efficiency, this article proposes a joint approach that combines dynamic modeling and observers to achieve accurate nonlinear state estimation of the functional soft actuator. First, inspired by the viscoelastic model, a general framework for modeling the 2D dynamics of the pneumatic network soft actuator under external conditions was studied. The dimensionless dynamic model of the soft actuator's bending deformation is derived through the dimensional analysis method. Then, an adaptive extended Kalman particle filter (aEKPF) is used for state estimation. It can restrain noise from pressure sensors and reduce drift error from rate gyroscopes. The closed-loop performance of the nonlinear pose estimation combined with the conventional control method was experimentally assessed using soft actuators and soft crawling. Results show that the aEKPF can accurately estimate the state from noise sensor measurements. Compared with conventional EKF, aEKPF improves the performance by more than 50% in terms of state estimation error and convergence speed. At the same time, in the rectilinear crawling test, the mean centroid offset in different environments is less than 3% of the soft crawling module width, verifying the effectiveness and robustness of this strategy in accurate state estimation and stability control.
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来源期刊
IEEE Robotics and Automation Letters
IEEE Robotics and Automation Letters Computer Science-Computer Science Applications
CiteScore
9.60
自引率
15.40%
发文量
1428
期刊介绍: The scope of this journal is to publish peer-reviewed articles that provide a timely and concise account of innovative research ideas and application results, reporting significant theoretical findings and application case studies in areas of robotics and automation.
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