共查询到20条相似文献,搜索用时 31 毫秒
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量子进化算法(QEA)是目前较为独特的优化算法,它的理论基础是量子计算。算法充分借鉴了量子比特的干涉性、并行性,使得QEA求解组合优化问题具备了可行性。由于在求解排序问题中,算法本身存在收敛慢,没有利用其它未成熟个体等缺陷,将微粒群算法(PSO)及进化计算思想融入QEA中,构成了混合量子算法(HQA)。采用flow shop经典问题对算法进行了测试,结果证明混合算法克服了QEA的缺陷,对于求解排序问题具有一定的普适性。 相似文献
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混合量子进化算法及其应用 总被引:1,自引:0,他引:1
文章将量子进化算法(QEA)和粒子群算法(PSO)互相结合,提出了两种混合量子进化算法。第一种算法叫做嵌入式粒子群量子进化算法,其主要思想是将简化的PSO进化方程嵌入QEA的进化操作中,简化了QEA算法的结构,增强了QEA跳出局部极值的能力。第二种算法叫做量子二进制粒子群算法,其主要思想是将QEA中的量子染色体的概念引入二进制粒子群算法(BPSO),提高了BPSO算法保持种群多样性的能力和运算速度。通过对0-1背包问题和多用户检测问题的求解表明,新的算法不仅操作更简单,而且全局搜索能力有了显著的提高。 相似文献
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摘要:针对现在大空间建筑消防应急疏散问题,在火灾发生时,为撤离人群提供一条从危险区域到安全地带的最短安全路线。对疏散路径优化进行了研究,提出一种融合量子进化算法的改进蚁群算法用于消防疏散路径规划,用量子比特表示信息素,量子旋转门反馈控制信息素更新,即能体现量子并行计算的高效性,又能拥有蚁群算法较好的寻优能力。通过三个基准函数优化仿真与传统量子进化算法进行对比,证明算法较优的性能。再通过路径优化的仿真实验与经典蚁群算法进行比较,结果表明,算法能够有效避免陷入局部最优和拥有更快的收敛速度,在疏散路径规划中更为有效。 相似文献
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针对基本量子进化算法易陷于局部最优解的缺陷,提出一种改进的量子进化算法(QEA)。结合乡村邮路问题,对算法进行了测试,结果表明,改进算法在全局寻优能力和种群多样性方面比基本量子进化算法有所改进,是求解乡村邮路问题的一种有效算法。 相似文献
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进化参量的选取对量子衍生进化算法(QEA)的优化性能有极大的影响,传统QEA在选择进化参量时并未考虑种群中个体间的差异,种群中所有个体采用相同的进化参量完成更新,导致算法在解决组合优化问题中存在收敛速度慢、容易陷入局部最优解等问题。针对这一问题,采用自适应机制调整QEA的旋转角步长和量子变异概率,算法中任意一代的任一个体的进化参量均由该个体自身适应度确定,从而保证尽可能多的进化个体能够朝着最优解方向不断靠近。此外,由于自适应量子进化算法需要评估个体的适应度,导致运算时间较长,针对这一问题则采用多宇宙机制将算法分布于多个宇宙中并行实现,从而提高算法的执行效率。通过搜索多峰函数最优解和求解背包问题测试算法性能,结果表明,与传统QEA相比,所提出算法在收敛速度、搜索全局最优解及执行速度方面具有较好的表现。 相似文献
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一种新的混合量子进化算法 总被引:3,自引:1,他引:2
量子进化算法(QEA)用于多峰函数优化时,容易陷入局部最优.本文提出一种新的混合量子进化算法,通过双编码机制(经典二进制编码和量子概率编码),以及经典交叉和量子概率编码更新策略,实现了经典遗传算法与量子进化算法的有机结合,在发挥经典遗传算法全局优化能力的同时,利用量子概率搜索提高了算法的局部搜索能力.通过一组典型函数优化实验对该算法的性能进行了考察,并与QEA进行了比较.结果表明,本文算法在解的质量和收敛速度上都要优于QEA. 相似文献
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针对传统量子进化算法采用二进制观测机制,导致量子波动幅度较大且连续观测到相邻实数概率低的问题,本文提出了一种采用灰色码观测机制的量子进化算法.由于量子擅长全局搜索,灰色码擅长局部搜索,因此所提出的算法能较好平衡勘探和开采能力,量子进化更加平滑和高效.通过实验表明,算法能有效避免早熟和局部极值等问题,算法的精度更高,收敛速度更快. 相似文献
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A quantum-inspired Tabu search algorithm for solving combinatorial optimization problems 总被引:1,自引:1,他引:0
Hua-Pei Chiang Yao-Hsin Chou Chia-Hui Chiu Shu-Yu Kuo Yueh-Min Huang 《Soft Computing - A Fusion of Foundations, Methodologies and Applications》2014,18(9):1771-1781
In this study, we propose a novel quantum-inspired evolutionary algorithm (QEA), called quantum inspired Tabu search (QTS). QTS is based on the classical Tabu search and characteristics of quantum computation, such as superposition. The process of qubit measurement is a probability operation that increases diversification; a quantum rotation gate used to searching toward attractive regions will increase intensification. This paper will show how to implement QTS into NP-complete problems such as 0/1 knapsack problems, multiple knapsack problems and the traveling salesman problem. These problems are important to computer science, cryptography and network security. Furthermore, our experimental results on 0/1 knapsack problems are compared with those of other heuristic algorithms, such as a conventional genetic algorithm, a Tabu search algorithm and the original QEA. The final outcomes show that QTS performs much better than other heuristic algorithms without premature convergence and with more efficiency. Also on multiple knapsack problems and the traveling salesman problem QTS verify its effectiveness. 相似文献
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具有同时集送货需求车辆路径问题的混沌量子进化算法研究 总被引:2,自引:0,他引:2
针对量子进化算法中旋转角取值的离散性使其解空间的搜索具有跳跃性,提出了基于混沌理论的精英均值计算旋转角算法,并将其应用于具有同时集送货需求车辆路径问题的求解.在理论上分析了解的强可行和弱可行条件的基础上,使用启发式算子对解进行改进.通过仿真实验与其他算法进行了比较,仿真结果表明所提出算法是求解此类问题的有效方法. 相似文献
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This paper proposes a novel evolutionary algorithm inspired by quantum computing, called a quantum-inspired evolutionary algorithm (QEA), which is based on the concept and principles of quantum computing, such as a quantum bit and superposition of states. Like other evolutionary algorithms, QEA is also characterized by the representation of the individual, evaluation function, and population dynamics. However, instead of binary, numeric, or symbolic representation, QEA uses a Q-bit, defined as the smallest unit of information, for the probabilistic representation and a Q-bit individual as a string of Q-bits. A Q-gate is introduced as a variation operator to drive the individuals toward better solutions. To demonstrate its effectiveness and applicability, experiments were carried out on the knapsack problem, which is a well-known combinatorial optimization problem. The results show that QEA performs well, even with a small population, without premature convergence as compared to the conventional genetic algorithm. 相似文献
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Jianhua Xiao Jin Xu Zhihua Chen Kai Zhang Linqiang Pan 《Computers & Mathematics with Applications》2009,57(11-12):1949
DNA encoding is crucial to successful DNA computation, which has been extensively researched in recent years. It is difficult to solve by the traditional optimization methods for DNA encoding as it has to meet simultaneously several constraints, such as physical, chemical and logical constraints. In this paper, a novel quantum chaotic swarm evolutionary algorithm (QCSEA) is presented, and is first used to solve the DNA sequence optimization problem. By merging the particle swarm optimization and the chaotic search, the hybrid algorithm cannot only avoid the disadvantage of easily getting to the local optional solution in the later evolution period, but also keeps the rapid convergence performance. The simulation results demonstrate that the proposed quantum chaotic swarm evolutionary algorithm is valid and outperforms the genetic algorithm and conventional evolutionary algorithm for DNA encoding. 相似文献
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一种基于量子进化算法的概率进化算法 总被引:2,自引:2,他引:0
针对量子进化算法(QEA)求解二进制编码问题比较有效,而求解多进制编码问题则比较困难,提出一种概率进化算法(PEA)。该算法汲取了量子复合位、叠加态等思想,采用由观测概率构成的概率复合位进行编码,观测和更新操作直接针对观测概率进行。PEA保持了QEA的性能,运算速度远优于QEA,并可以采用任意进制编码。函数优化和背包问题实验验证了PEA的有效性。 相似文献
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An important problem in the study of evolutionary algorithms is how to continuously predict promising solutions while simultaneously escaping from local optima. In this paper, we propose an elitist probability schema (EPS) for the first time, to the best of our knowledge. Our schema is an index of binary strings that expresses the similarity of an elitist population at every string position. EPS expresses the accumulative effect of fitness selection with respect to the coding similarity of the population. For each generation, EPS can quantify the coding similarity of the population objectively and quickly. One of our key innovations is that EPS can continuously predict promising solutions while simultaneously escaping from local optima in most cases. To demonstrate the abilities of the EPS, we designed an elitist probability schema genetic algorithm and an elitist probability schema compact genetic algorithm. These algorithms are estimations of distribution algorithms (EDAs). We provided a fair comparison with the persistent elitist compact genetic algorithm (PeCGA), quantum-inspired evolutionary algorithm (QEA), and particle swarm optimization (PSO) for the 0–1 knapsack problem. The proposed algorithms converged quicker than PeCGA, QEA, and PSO, especially for the large knapsack problem. Furthermore, the computation time of the proposed algorithms was less than some EDAs that are based on building explicit probability models, and was approximately the same as QEA and PSO. This is acceptable for evolutionary algorithms, and satisfactory for EDAs. The proposed algorithms are successful with respect to convergence performance and computation time, which implies that EPS is satisfactory. 相似文献
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针对阻塞流水车间调度问题(BFSP),提出了一种新颖的量子差分进化(NQDE)算法,用于最小化最大完工时间。该算法将量子进化算法(QEA)与差分进化(DE)相结合,设计一种新颖的量子旋转机制控制种群进化方向,增强种群多样性;采用高效的基于变邻域搜索的量子进化算法(QEA-VNS)协同进化策略增强算法的全局搜索能力,进一步提高解的质量。基于Taillard's benchmark实例仿真,结果表明,所提算法在最优解数量上明显高于目前较好的启发式算法--INEH,改进了110个实例中64个实例的当前最优解;在性能上也优于目前有效的元启发式算法--新型蛙跳算法(NMSFLA)和混合量子差分进化(HQDE),产生最优解的平均百分比偏差(ARPD)均下降约6%。NQDE算法适合大规模阻塞流水车间调度问题。 相似文献
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量子进化算法研究现状综述 总被引:7,自引:0,他引:7
在介绍基本量子进化算法(QEA)的基础上,重点归纳总结了最近几年量子进化算法在算法机理和性能方面以及在算法的种群改进、编码扩展、算子创新、算法融合等应用方面的研究成果,进而提出了量子进化算法在模式理论、多目标进化、算法研究、应用等方面进一步的研究内容. 相似文献
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乡村邮递员问题属于NP完全问题,对它的近似求解方法主要是智能算法及线性规划,但其中的基本量子进化算法易陷于局部最优解。为此,提出一种新的量子进化算法,结合城市垃圾运输问题,对算法进行测试。结果表明,该算法在全局寻优能力及种群多样性方面均比传统算法有所改进,是求解乡村邮递员问题的一种有效算法。 相似文献