Modeling torque-angle hysteresis in a pneumatic muscle manipulator

机译：在气动肌肉操纵器中建模扭矩角滞后

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Hysteresis is inherently present in Pneumatic Artificial Muscle (PAM) Actuators. Our new observation shows that the hysteresis in a PAM is characterized by quasirate independency and history dependency, and is completely described by the Maxwell-slip (MS) model. In this paper, we explain how to model the existing hysteresis in an antagonistic PAM configuration, using the models derived for the individual PAMs. Experimental results show that the pneumatic manipulator hysteresis has the same behaviors as those found in a single PAM. The proposed model is used to predict the output torque of the manipulator joint not only for any arbitrary angular displacements but also for any arbitrary pressure difference.

机译：滞后在气动人造肌肉（PAM）致动器中存在。我们的新观察表明，PAM中的滞后是通过Quairate独立性和历史依赖性的特征，并且由MaxWell滑移（MS）模型完全描述。在本文中，我们解释了如何使用为单个PAM派生的模型来模拟对抗PAM配置中的现有滞后。实验结果表明，气动操纵器滞后具有与单个粉浆中的那些相同的行为。所提出的模型用于预测操纵器接头的输出扭矩，不仅适用于任何任意角位移，还用于任何任意角度差。

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《Institute of Electrical and Electronics Engineers/American Society of Mechanical Engineers international conference on advanced intelligent mechatronics》|2010年||共6页
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中图分类 TB24-53;
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Hysteresis Modeling; McKibben Artificial Muscle; Pneumatic Muscle Manipulator;

机译：滞后模型;麦克宾人工肌肉;气动肌肉机械手;

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1. Modeling and control of a pneumatic artificial muscle manipulator joint - Part I: Modeling of a pneumatic artificial muscle manipulator joint with accounting for creep effect [J] . Tri Vo Minh, Bram Kamers, Herman Ramon, Mechatronics: The Science of Intelligent Machines . 2012,第7期

机译：气动人工肌肉操纵器关节的建模和控制-第一部分：考虑蠕变效应的气动人工肌肉操纵器的建模
2. Control of a Parallel Manipulator Driven by Pneumatic Muscle Actuators Based on a Hysteresis Model [J] . Takahiro KOSAKI, Manabu SANO Journal of Environment and Engineering . 2011,第2期

机译：基于迟滞模型的气动肌肉执行器驱动的并联机械手控制
3. Adaptive Hysteresis Compensation with a Dynamic Hysteresis Model for Control of a Pneumatic Muscle Actuator [J] . Takahiro KOSAKI, Ayuto MINESAKI, Manabu SANO Journal of Environment and Engineering . 2012,第1期

机译：具有动态滞后模型的自适应滞后补偿，用于控制气动肌肉执行器
4. Modeling torque-angle hysteresis in a pneumatic muscle manipulator [C] . 2010 IEEE/ASME International Conference on Advanced Intelligent Mechatronics . 2010

机译：在气动肌肉操纵器中建模扭矩角滞后
5. Pneumatic artificial muscle actuators for compliant robotic manipulators [D] . Robinson, Ryan Michael 2014

机译：柔顺型机械手的气动人工肌肉执行器
6. Development of the Ultralight Hybrid Pneumatic Artificial Muscle: Modelling and optimization [O] . Seonggun Joe, Massimo Totaro, Hongbo Wang, 2021

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7. Control of a Parallel Manipulator Driven by Pneumatic Muscle Actuators Based on a Hysteresis Model [O] . Takahiro KOSAKI, Manabu SANO 2011

机译：基于滞后模型控制由气动肌动力执行器驱动的并行机械手
8. Measurement and Modeling of McKibben Pneumatic Artificial Muscles [R] . Chou, C. P., Hannaford, B. 1992

机译：mcKibben气动人工肌肉的测量与建模

Modeling torque-angle hysteresis in a pneumatic muscle manipulator

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