Optimal actuator placements for shape control of adaptive piezoelectric truss
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摘要: 以压电作动器为控制元件,建立了自适应桁架形状控制基本方程.考虑结构性状约束和电压限制,建立了以作动器位置和控制电压为设计变量,以形状精度、控制能量和作动器数目的加权表达式为目标函数的作动器优化配置数学模型.由于作动器和普通杆具有不同的单元刚度,作动器每一种不同的位置配置都会导致结构总刚度矩阵的变化,因此单独采用遗传算法需要进行大量的结构计算.为了减少结构分析次数,提出了多点近似、遗传算法和二次规划相结合的优化方法.算例结果表明本文方法具有很高的求解效率.Abstract: With piezoelectric actuators as control elements, the basic equations of shape control for adaptive truss was formulated. A mathematical model of optimal actuator placements was presented, in which the actuator locations and the control voltages were taken as design variables, and the weighted presentation of the shape precision, control energy and number of actuators was taken as the objective function. This model subjected to the strength of the structure, the limit of nodal displacement and the maximum control voltage of actuators. Because the actuators and the ordinary bars have different element stiffness, every reasonable allocation of actuators could result in the change of whole stiffness matrix. If genetic algorithm was directly applied, an extremely large number of structural analysis would be needed. In order to decrease the number of structural analysis, a new method was proposed, in which the multi-point approximation, genetic algorithm and quadratic programming were combined. The results of examples show that the proposed method has high efficiency.
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Key words:
- actuators /
- location /
- optimization /
- approximation theory /
- genetic algorithms /
- quadratic programming
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[1] Haftka R T, Adelman H M. Selection of actuator locations for static shape control of large space structures by heuristic integer programming[J]. Computers & Structures, 1985, 20(1-3):575-585 [2] 聂润兔,邵成勋,邹振祝.自适应桁架形状控制中主动杆多目标最优配置[J].应用力学学报,1997,14(3):48-53 Nie Runtu, Shao Chengxun, Zou Zhenzhu, et al. Multi-objective optimal placement of active members for shape control of adaptive truss structures[J]. Chinese Journal of Applied Mechanics, 1997, 14(3):48-53(in Chinese) [3] Yang F, Sedaghati R, Youhesian O, et al. Optimal placement of active bars in smart structures Proceedings of the IEEE International Conference on Mechatronics and Automation Vo1.1. United States:Institnte of Electriacal and Electronia Engineers Computes Society, 2005:1- 6 [4] Sheng L Z, Kapania R K. Extensive experiments on genetic algorithms for the optimization of piezoelectric actuator locations through parallel computation . AIAA-2005-1899, 2005 [5] 董永芳,黄海.桁架拓扑优化的多点逼近遗传算法[J].计算力学学报,2004, 21(6):746-751 Dong Yongfang, Huang Hai. Truss topology optimization by using multi-point approximation and GA[J]. Chinese Journal of Computational Mechanics, 2004, 21(6):746-751(in Chinese) [6] 夏人伟.工程优化理论与算法[M].北京:北京航空航天大学出版社,2003 Xia Renwei. Theory and algorithms for engineering optimization[M]. Beijing:Beijing University of Aeronautics and Astronautics Press, 2003(in Chinese) [7] 王小平,曹立明.遗传算法——理论、应用与软件实现[M].西安:西安交通大学出版社,2002 Wang Xiaoping, Cao Liming. Genetic algorithms theories, applications and software practices[M]. Xi-an:Xi-an Traffic University Press, 2002 (in Chinese) [8] 龙连春.智能桁架结构受力性态最优控制的建模与分析 .北京:北京工业大学机电学院,2003 Long Lianchun. Modeling and analysis on optimal control for loading behavior of intelligent truss structures . Beijing:College of Mechanical Engineering & Applied Electronic Technology, Beijing University of Technology, 2003(in Chinese)
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