Alloy Actuated(合金驱动)研究综述
Alloy Actuated 合金驱动 - The ball position control is experimentally demonstrated by cascade control using the control laws that have been unattempted for shape-memory alloy actuated systems; the ball is positioned with linear (integer-order and fractional-order) proportional–integral–derivative controllers optimized with genetic algorithm and particle swarm optimization at the outer/primary loop. [1] This paper proposes a design concept for a shape memory alloy actuated switch suitable for such application. [2] The aim of this study is to propose a subsystem that is able to establish correlation between aerodynamics and structure measurements to be used as the input to the existing shape memory alloy actuated adaptive airfoil system. [3]使用形状记忆合金驱动系统未尝试过的控制规律,通过级联控制实验证明了球的位置控制;球使用线性(整数阶和分数阶)比例 - 积分 - 微分控制器进行定位,该控制器通过遗传算法和粒子群优化在外环/主环进行优化。 [1] 本文提出了一种适用于此类应用的形状记忆合金致动开关的设计理念。 [2] 本研究的目的是提出一个子系统,该子系统能够建立空气动力学和结构测量之间的相关性,用作现有形状记忆合金驱动的自适应翼型系统的输入。 [3]
Memory Alloy Actuated
The ball position control is experimentally demonstrated by cascade control using the control laws that have been unattempted for shape-memory alloy actuated systems; the ball is positioned with linear (integer-order and fractional-order) proportional–integral–derivative controllers optimized with genetic algorithm and particle swarm optimization at the outer/primary loop. [1] This paper proposes a design concept for a shape memory alloy actuated switch suitable for such application. [2] The aim of this study is to propose a subsystem that is able to establish correlation between aerodynamics and structure measurements to be used as the input to the existing shape memory alloy actuated adaptive airfoil system. [3]使用形状记忆合金驱动系统未尝试过的控制规律,通过级联控制实验证明了球的位置控制;球使用线性(整数阶和分数阶)比例 - 积分 - 微分控制器进行定位,该控制器通过遗传算法和粒子群优化在外环/主环进行优化。 [1] 本文提出了一种适用于此类应用的形状记忆合金致动开关的设计理念。 [2] 本研究的目的是提出一个子系统,该子系统能够建立空气动力学和结构测量之间的相关性,用作现有形状记忆合金驱动的自适应翼型系统的输入。 [3]