共查询到20条相似文献,搜索用时 31 毫秒
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针对多相材料结构柔顺度拓扑优化问题及其存在多个局部优化解的情况,提出一种新的多相材料结构柔顺度拓扑优化问题的求解方法, 并研究其获得多个局部优化解及寻找较好的优化解的能力。基于材料属性有理近似 (RAMP)模型,引入可行域调整技术,构建多相材料结构拓扑优化模型及近似优化模型。提出一种改进的交替主动相算法,该算法将多相材料结构拓扑近似优化模型分解为多个含2个主动相材料体积约束的系列二元相拓扑优化子模型,并利用光滑化对偶算法进行优化求解。与现有方法相比,采用多个不同的优化初始拓扑,提出的方法可找到更优的多相材料结构拓扑, 且为多相材料结构拓扑优化的多样性设计提供了一种有价值的思路与方法。 相似文献
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Conflict avoidance (CA) plays a crucial role in guaranteeing the airspace safety. The cur- rent approaches, mostly focusing on a short-term situation which eliminates conflicts via local adjust- ment, cannot provide a global solution. Recently, long-term conflict avoidance approaches, which are proposed to provide solutions via strategically planning traffic flow from a global view, have attracted more attentions. With consideration of the situation in China, there are thousands of flights per day and the air route network is large and complex, which makes the long-term problem to be a large-scale combinatorial optimization problem with complex constraints. To minimize the risk of premature convergence being faced by current approaches and obtain higher quality solutions, in this work, we present an effective strategic framework based on a memetic algorithm (MA), which can markedly improve search capability via a combination of population-based global search and local improve- ments made by individuals. In addition, a specially designed local search operator and an adaptive local search frequency strategy are proposed to improve the solution quality. Furthermore, a fast genetic algorithm (GA) is presented as the global optimization method. Empirical studies using real traffic data of the Chinese air route network and daily flight plans show that our approach outper- formed the existing approaches including the GA .based approach and the cooperative coevolution based approach as well as some well-known memetic algorithm based approaches. 相似文献
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工程环境中,飞机气动力设计面临在多个目标和多种约束条件下寻找最优值,需在较短时限内完成设计优化,并保证最终方案可靠。基于高性能计算环境,采用现代计算流体力学(CFD)数值模拟技术和优化技术等构建了面向实际工程的飞行器气动多目标优化设计平台:采用基于非均匀有理B样条(NURBS)方法的自由曲面变形技术,实现对工程复杂气动外形的参数化表达;采用网格变形技术,实现优化过程中计算网格的自动更新;采用基于有限体积方法和多块结构网格的雷诺平均Navier-Stokes(RANS)方程并行解算器进行气动力求解;采用基于精英保留策略的非支配排序的多目标遗传算法(NSGA-II)进行多目标全局优化求解;采用非线性单纯形算法进行局部优化求解,优化过程中,通过人工调整优化种群,引入人工经验,构建"人在回路"的设计流程。以某翼型/机翼气动力优化设计为例对该平台技术进行验证:多目标优化设计可得到清晰的Pareto前沿解分布;优化后的翼型/机翼在满足各项约束的前提下,具备更高的综合气动性能。结果表明:所发展的气动多目标优化设计平台具有很好的工程适用性。 相似文献
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分析研究了量子遗传算法(Quantum Genetic A lgorithm-QGA)的原理及其优势,将有指导的群体灾变及多宇宙并行演化策略引入量子遗传算法,改善其收敛性。以理想二阶系统为参考模型,实际系统响应曲线与参考模型响应曲线误差积分为目标函数,使用量子遗传算法进行发动机PID控制器参数优化并进行了数字仿真。仿真结果表明,量子遗传算法具有较好的全局收敛能力,应用于PID控制器控制参数优化后,控制器的控制效果良好,其在发动机控制系统中有较高的应用价值。 相似文献
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基于自适应模拟退火遗传算法的月球软着陆轨道优化 总被引:17,自引:4,他引:13
将自适应遗传算法与模拟退火算法相结合,形成一种自适应模拟退火遗传算法。该算法不但具备了自适应遗传算法的强大全局搜索能力,也拥有模拟退火算法的强大局部搜索能力。针对月球软着陆轨道优化的特点,利用一种新的参数化方法将轨道优化问题转换为非线性规划问题,并应用提出的自适应模拟退火遗传算法进行优化。数值结果表明:该算法的收敛速度快,优化精度高,且避免了初值敏感、病态梯度和局部收敛等问题,能够搜索到全局最优轨道。 相似文献
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Pareto基因算法多目标翼型优化设计 总被引:3,自引:0,他引:3
基于 Pareto最优解的定义,通过构造新型的联赛式选择复制等算子而发展了一种适合于求解多目标优化设计的 Pareto基因算法。通过等级法来正确识别每一代中近 Pareto波阵面的解,从而消除选择误差达到快速收敛的目的。为提高解的分布性:采用小生境技术解决了基因材料多样性损失问题;采用常规实数编码方式配合平均交叉算子解决了编码端点效应问题。将所发展的方法应用于多目标翼型优化设计中,获得了理想的 Pareto波阵面,为决策者提供了一个可选的有效解数据库。 相似文献
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Optimization problems are often highly constrained and evolutionary algorithms(EAs)are effective methods to tackle this kind of problems. To further improve search efficiency and convergence rate of EAs, this paper presents an adaptive double chain quantum genetic algorithm(ADCQGA) for solving constrained optimization problems. ADCQGA makes use of doubleindividuals to represent solutions that are classified as feasible and infeasible solutions. Fitness(or evaluation) functions are defined for both types of solutions. Based on the fitness function, three types of step evolution(SE) are defined and utilized for judging evolutionary individuals. An adaptive rotation is proposed and used to facilitate updating individuals in different solutions.To further improve the search capability and convergence rate, ADCQGA utilizes an adaptive evolution process(AEP), adaptive mutation and replacement techniques. ADCQGA was first tested on a widely used benchmark function to illustrate the relationship between initial parameter values and the convergence rate/search capability. Then the proposed ADCQGA is successfully applied to solve other twelve benchmark functions and five well-known constrained engineering design problems. Multi-aircraft cooperative target allocation problem is a typical constrained optimization problem and requires efficient methods to tackle. Finally, ADCQGA is successfully applied to solving the target allocation problem. 相似文献
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将小生境遗传算法(NGA)应用于飞行控制系统(FCS)的优化设计中,需要解决两个问题:如何选择目标函数及如何确定初始种群和算法运行参数。针对这两个问题,分别提出了基于参考模型的飞行控制系统优化策略及基于均匀设计的小生境遗传算法初始种群和运行参数的选择方法,根据规范要求将飞行控制系统的性能指标要求转化到参考模型中,利用均匀设计方法优选出合适的初始种群和算法运行参数。仿真结果表明,所提出的优化策略能够有效地解决飞行控制系统的优化设计问题,小生境遗传算法初始种群分布均匀,收敛速度快。 相似文献
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布谷鸟搜索(CS)算法是一种新型的受自然现象启发的元启发式智能优化算法,其强大的全局搜索能力和收敛速度受到了广泛关注。多目标布谷鸟搜索(MOCS)算法是一种在单目标布谷鸟算法基础上发展的可以直接求解Pareto解集的多目标优化算法。针对原始MOCS算法的不足,采用一系列措施以提高算法的收敛精度、收敛速度以及解的均匀性:通过引入非支配排序与拥挤距离来改进解的适应度评估;通过改进随机游走策略来提高局部搜索能力;通过引入改进的自适应丢弃概率策略来提高算法的收敛速度;加入档案管理机制,提高解的均匀性。典型的多目标数值算例结果表明,改进的MOCS算法相较于当前主流的NSGA-Ⅱ算法拥有更快的收敛速度和更高的收敛精度。以RAE2822双目标升阻比优化设计为例,将改进的MOCS算法应用于多目标气动优化中,改进的MOCS算法共获得64个Pareto解,优化后的翼型气动性能有明显的提升,设计者可以根据自己的偏好选取不同的Pareto解。对于气动优化问题,改进的MOCS算法与目前主流的NSGA-Ⅱ相比,收敛速度更快。 相似文献
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认识翼型气动外形优化问题设计空间的多极值特性,有助于人们在翼型设计阶段选择合理的优化算法,提高优化效率、缩短设计周期。研究RAE2822 翼型在优化减阻过程中设计空间的多极值特性,采用ADODGcase2算例,使用自由变形方法(FFD)对翼型进行参数化,通过拉丁超立方抽样方法对翼型加入初始扰动;使用基于梯度的优化算法对经过不同扰动后的翼型进行优化,并将优化结果与全局优化算法的优化结果进行对比。结果表明:ADODGcase2可能是一个单峰值气动设计问题,梯度算法能够得到相对满意的最优解,并且具有更高的优化效率;在给定面积约束的条件下,对于翼型跨声速单点减阻优化问题,设计空间很可能是单峰值的,可直接使用梯度优化算法。 相似文献
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无人机自主航迹规划是未来无人机作战使用的关键技术难题。针对传统航迹规划方法存在的求解效率不高、实时性较差、容易陷入局部最优等缺点,提出一种基于改进启发式蚁群算法的无人机航迹规划。算法前期使用Dijkstra 算法进行初始化航迹,引入启发式信息,提高搜索效率;采用Logistic 混沌映射初始化信息素,增加解的多样性,提高算法收敛速度;算法中、后期采用多航迹选择策略和模拟退火机制,提高全局搜索能力,避免因收敛速度过快,陷入局部最优解。对该算法进行仿真分析,结果表明:在存在威胁和障碍的复杂环境中,本文的改进蚁群算法与标准蚁群算法相比,能够有效规划出一条从起点到终点的航迹,并且寻优精度更高,收敛速度更快,具有一定应用价值。 相似文献
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考虑轴承游隙的非线性动力学轴承-转子系统优化 总被引:1,自引:1,他引:0
针对一类带动态性能约束的轴承-转子系统优化设计存在的问题,做如下改进工作:一是在目前一类轴承-转子系统优化模型基础上,将轴承游隙作为设计变量,考虑轴承游隙的影响;二是提出了一种演化算法/线性搜索的混合算法,将优化过程分为两个阶段,首先采用演化算法对问题全局寻优,求得给定代数时的优化解,再以此解作为新的初始解,采用线性搜索方法进行局部搜索.经数值仿真表明:该优化模型中增加考虑轴承游隙后,对优化结果有较大影响;提出的混合算法克服了使用线性搜索方法难以确定初始解的问题,在同等计算精度和耗时情况下,该方法求解成功率较高. 相似文献
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果蝇优化算法(FOA)是一种新的群体智能优化算法,具有良好的全局收敛特性。为进一步提高FOA的寻优性能,将其引入到气动优化设计中,发展形成了改进的果蝇优化算法(IFOA)。IFOA通过引入惯性权重函数动态调整搜索步长,有效实现了算法全局搜索和局部搜索之间的动态平衡,提高了算法整体搜索效率和寻优精度;对于多维优化问题,IFOA每次搜索仅随机扰动其中一个决策变量,并在每个迭代步内将所有优秀果蝇个体(可行解)结合产生一个全新的果蝇个体进行一次搜索,大大加快了算法的收敛速度。函数测试结果表明,IFOA显著提高了FOA的寻优性能。将IFOA应用到气动优化设计中,翼型反设计和单/多目标优化设计的算例表明,IFOA是一种简单高效的优化方法,可广泛应用于气动优化设计。 相似文献
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《中国航空学报》2020,33(12):3318-3330
In order to obtain the optimized aircraft design concept which meets the increasingly complex operation environment at the conceptual design stage, System-of-systems (SoS) engineering must be considered. This paper proposes a novel optimization method for the design of aircraft Mission Success Space (MSS) based on Gaussian fitting and Genetic Algorithm (GA) in the SoS area. First, the concepts in the design and evaluation of MSS are summarized to introduce the Contribution to System-of-Systems (CSS) by using a conventional effectiveness index, Mission Success Rate (MSR). Then, the mathematic modelling of Gaussian fitting technique is noted as the basis of the optimization work. After that, the proposed optimal MSS design is illustrated by the multi-objective optimization process where GA acts as the search tool to find the best solution (via Pareto front). In the case study, a simulation system of penetration mission was built. The simulation results are collected and then processed by two MSS design schemes (contour and neural network) giving the initial variable space to GA optimization. Based on that, the proposed optimization method is implemented under both schemes whose optimal solutions are compared to obtain the final best design in the case study. 相似文献
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This paper presents a novel optimization technique for an efficient multi-fidelity model building approach to reduce computational costs for handling aerodynamic shape optimization based on high-fidelity simulation models. The wing aerodynamic shape optimization problem is solved by dividing optimization into three steps—modeling 3D(high-fidelity) and 2D(lowfidelity) models, building global meta-models from prominent instead of all variables, and determining robust optimizing shape associated with tuning local meta-models. The adaptive robust design optimization aims to modify the shape optimization process. The sufficient infilling strategy—known as adaptive uniform infilling strategy—determines search space dimensions based on the last optimization results or initial point. Following this, 3D model simulations are used to tune local meta-models. Finally, the global optimization gradient-based method—Adaptive Filter Sequential Quadratic Programing(AFSQP) is utilized to search the neighborhood for a probable optimum point. The effectiveness of the proposed method is investigated by applying it, along with conventional optimization approach-based meta-models, to a Blended Wing Body(BWB) Unmanned Aerial Vehicle(UAV). The drag coefficient is defined as the objective function, which is subjected to minimum lift coefficient bounds and stability constraints. The simulation results indicate improvement in meta-model accuracy and reduction in computational time of the method introduced in this paper. 相似文献
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将模拟退火算法(SAA)与具有交叉和高斯变异的人工鱼群算法(AFSA)相结合,提出了一种基于混合人工鱼群算法(HAFSA)的结构有限元模型修正方法;针对外编有限元模型修正程序直接嵌入Patran/Nas-tran软件存在困难的情况,设计了一种灵巧且方便的接口模块。以试验模型测试数据与有限元模型计算值的向量残差建立目标函数,在基本AFSA中引入交叉和高斯变异算子用于加快全局优化搜索速度,将目标函数优化值不断刷新公告板,再利用SAA进行局部细化搜索从而显著提高优化解的精度,在满足算法终止条件后获得设计参数的最优值;结合Fortran语言和Visual Basic语言编译接口模块,运行模型修正程序时循环修改Patran软件生成的建模文件并反复调用Nastran软件进行求解。以欧洲航空研究科技组织的基准模型——GARTEUR飞机模型为例,修正结果表明,应用HAFSA进行结构有限元模型修正是可行且有效的。 相似文献
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提出了一种新的基于群体搜索的随机优化算法。该算法的基本思想是:1) 像遗传算法那样,采用二进制串来表示问题的尝试解;2) 解串中每个二进制位的取值,由一可改变的概率分布控制;3)根据群体中最佳解串与最差解串编码结构上的差异,对相关的概率分布进行修改。文中给出的模拟实例,显示了新算法在求解函数全局优化问题中的有效性 相似文献