刚度
紧凑空间
执行机构
控制理论(社会学)
理论(学习稳定性)
变量(数学)
计算机科学
顺应机制
拓扑(电路)
直接刚度法
弹簧(装置)
工程类
可控性
结构工程
控制工程
数学
控制(管理)
结构稳定性
控制器(灌溉)
线性执行器
机械工程
作者
Irfan Hussain,Mariam Almansoori,Khaled Tamizi,Ahmad Albalasie,Zhenwei Niu,Dongming Gan
摘要
Abstract This article introduces a novel compact discrete variable stiffness actuator, distinguished by its design topology enabling compactness and independent stiffness adjustment regardless of position, without relying on complex stiffness tuning mechanisms. The compactness is achieved through a rotary spring module comprising six linear springs. Variation in stiffness is attained by adjusting the number of engaged elastic elements (springs) using linear actuators. The article comprehensively covers the design, modeling, prototyping, and control of the actuator. A mathematical model, encompassing stiffness and dynamic aspects of the system, is developed and analyzed. Robust controllers are devised to ensure stability across different stiffness levels and under varying loads. Simulation and experimental findings provide empirical validation of the effectiveness of this innovative compact actuation system, underscoring its suitability for diverse applications across sectors such as manufacturing, healthcare, and assistive robotics.
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