基于混合离散粒子群优化的控制模式分配算法
Hybrid Discrete Particle Swarm Optimization Algorithm for Control Pattern Assignment
- 电子学报 2024年52卷第8期 页码:2836-2849
- 作者机构:
1.福州大学计算机与大数据学院,福建福州 350108
2.西北工业大学计算机学院,陕西西安 710072
3.武汉理工大学信息工程学院,湖北武汉 430070
- 作者简介:
[ "曾裕钦 男,2000年出生,四川宜宾人.硕士研究生.主要研究方向为EDA算法. E-mail: 1244934835@qq.com" ]
[ "蔡华洋 男,1997年出生,福建泉州人.博士研究生.主要研究方向为EDA算法. E-mail: c_huayang@163.com" ]
[ "周茹平 女,1998年出生,福建福州人.硕士研究生.主要研究方向为EDA算法. E-mail: zrp08200331@163.com" ]
[ "刘耿耿 男,1988年出生,福建南安人.博士、副教授.主要研究方向为EDA算法. E-mail: liugenggeng@fzu.edu.cn" ]
[ "黄兴 男,1991年出生,陕西咸阳人.博士,教授.主要研究方向为EDA算法. E-mail: xing.huang@nwpu.edu.cn" ]
[ "徐宁 男,1968年出生,湖北武汉人.博士、教授.主要研究方向为FPGA物理设计、电子设计自动化、大数据分析与人工智能、图像处理.中国电子学会会员编号:E190002967S.E-mail: xuning@whut.edu.cn" ]
- 基金信息:国家自然科学基金(61877010)
DOI:10.12263/DZXB.20221166
中图分类号: TP391;收稿:2022-10-14,
修回:2022-12-07,
纸质出版:2024-08-25
- 稿件说明:
移动端阅览
曾裕钦, 蔡华洋, 周茹平, 等. 基于混合离散粒子群优化的控制模式分配算法[J]. 电子学报, 2024, 52(08): 2836-2849.
ZENG Yu-qin, CAI Hua-yang, ZHOU Ru-ping, et al. Hybrid Discrete Particle Swarm Optimization Algorithm for Control Pattern Assignment[J]. Acta Electronica Sinica, 2024, 52(08): 2836-2849.
曾裕钦, 蔡华洋, 周茹平, 等. 基于混合离散粒子群优化的控制模式分配算法[J]. 电子学报, 2024, 52(08): 2836-2849. DOI:10.12263/DZXB.20221166
ZENG Yu-qin, CAI Hua-yang, ZHOU Ru-ping, et al. Hybrid Discrete Particle Swarm Optimization Algorithm for Control Pattern Assignment[J]. Acta Electronica Sinica, 2024, 52(08): 2836-2849. DOI:10.12263/DZXB.20221166
摘要
连续微流控生物芯片是生物化学实验自动化、微型化的革命性技术.多路复用器的控制模式分配作为连续微流控生物芯片自动化设计的关键环节之一,是难的NP(Non-deterministic Polynomial)优化问题.现有工作采用粒子群优化算法求解控制模式分配问题存在过早陷入局部最优解、收敛速度慢以及算法稳定性差的缺点.为此,本文提出一种连续微流控生物芯片下基于混合离散粒子群优化的控制模式分配算法.首先,为了加快算法收敛速度及避免过早陷入局部最优解,提出了离散的自适应区域搜索策略.其次,通过基于样例的社会学习机制提高了算法的稳定性.然后,采用等距抽值的方式筛选出自适应区域搜索策略中重要参数的最佳组合,以进一步提高分配方案的质量.最终实验结果表明,所提算法在多路复用器中阀门使用数量上平均优化了19.01%,在算法稳定性上提高了29.18%,且在现实的生化应用中有良好的性能表现.
Abstract
Continuous-flow microfluidic biochip is a revolutionary technology for automation and miniaturization of biochemical experiments. As one of the key links in the automatic design of continuous microfluidic biochips
the control pattern assignment problem of multiplexers is an NP-hard combinatorial optimization problem. The existing particle swarm optimization algorithm for control pattern assignment problem has the disadvantages of falling into local optimal solution prematurely
slow convergence speed
and poor stability of the algorithm. In this paper
control pattern assignment algorithm based on hybrid discrete particle swarm optimization for continuous-flow microfluidic biochips is proposed. First
in order to accelerate the convergence speed of the proposed algorithm and avoid falling into a local optimum prematurely
a discrete adaptive region search strategy is proposed. Second
the stability of the proposed algorithm is improved by a sample-based social learning mechanism. Third
the optimal combination of the important parameters in the adaptive region search strategy is selected by equidistant sampling to further improve the results. The final experimental results show that the proposed algorithm optimizes the number of valves by an average of 19.01%
and improves the stability of the algorithm by 29.18%
and then performs well in practical biochemical applications.
关键词
Keywords
references
BALAGADDÉ F K , YOU L , HANSEN C L , et al . Long-term monitoring of bacteria undergoing programmed population control in a microchemostat [J ] . Science , 2005 , 309 ( 5731 ): 137 - 140 .
WHITESIDES G M . The origins and the future of microfluidics [J ] . Nature , 2006 , 442 ( 7101 ): 368 - 373 .
YAGER P , EDWARDS T , FU E , et al . Microfluidic diagnostic technologies for global public health [J ] . Nature , 2006 , 442 ( 7101 ): 412 - 418 .
UNGER M A , CHOU H P , THORSEN T , et al . Monolithic microfabricated valves and pumps by multilayer soft lithography [J ] . Science , 2000 , 288 ( 5463 ): 113 - 116 .
ROGERS J A , NUZZO R G . Recent progress in soft lithography [J ] . Materials Today , 2005 , 8 ( 2 ): 50 - 56 .
YAO H , HO T Y , CAI Y . PACOR: Practical control-layer routing flow with length-matching constraint for flow-based microfluidic biochips [C ] // ACM/EDAC/IEEE Design Automation Conference . Piscataway : IEEE , 2015 : 1 - 6 .
HU K , DINH T A , HO T Y , et al . Control-layer routing and control-pin minimization for flow-based microfluidic biochips [J ] . IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems , 2016 , 36 ( 1 ): 55 - 68 .
HONG J W , QUAKE S R . Integrated nanoliter systems [J ] . Nature Biotechnology , 2003 , 21 ( 10 ): 1179 - 1183 .
THORSEN T , MAERKL S J , QUAKE S R . Microfluidic large-scale integration [J ] . Science , 2002 , 298 ( 5593 ): 580 - 584 .
GROVER W H , IVESTER R H C , JENSEN E C , et al . Development and multiplexed control of latching pneumatic valves using microfluidic logical structures [J ] . Lab on a Chip , 2006 , 6 ( 5 ): 623 - 631 .
KIM S J , LAI D , PARK J Y , et al . Microfluidic automation using elastomeric valves and droplets: Reducing reliance on ex-ternal controllers [J ] . Small , 2012 , 8 ( 19 ): 2925 - 2934 .
ZHONG J F , CHEN Y , MARCUS J S , et al . A microfluidic processor for gene expression profiling of single human embryonic stem cells [J ] . Lab on a Chip , 2008 , 8 ( 1 ): 68 - 74 .
WANG Q , XU Y , ZUO S , et al . Pressure-aware control layer optimization for flow-based microfluidic biochips [J ] . IEEE Transactions on Biomedical Circuits and Systems , 2017 , 11 ( 6 ): 1488 - 1499 .
ZHU Y , HUANG X , LI B , et al . Multicontrol: Advanced control-logic synthesis for flow-based microfluidic biochips [J ] . IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems , 2019 , 39 ( 10 ): 2489 - 2502 .
POLI R , KENNEDY J , BLACKWELL T . Particle swarm optimization [J ] . Swarm Intelligence , 2007 , 1 ( 1 ): 33 - 57 .
GONG Y J , ZHANG J , CHUNG H S H , et al . An efficient resource allocation scheme using particle swarm optimization [J ] . IEEE Transactions on Evolutionary Computation , 2012 , 16 ( 6 ): 801 - 816 .
LIU G , CHEN Z , ZHUANG Z , et al . A unified algorithm based on HTS and self-adapting PSO for the construction of octagonal and rectilinear SMT [J ] . Soft Computing , 2020 , 24 ( 6 ): 3943 - 3961 .
SU B , LIN Y , WANG J , et al . Sewage treatment system for improving energy efficiency based on particle swarm optimization algorithm [J ] . Energy Reports , 2022 , 8 : 8701 - 8708 .
SETAYESH M , ZHANG M , JOHNSTON M . A novel particle swarm optimisation approach to detecting continuous, thin and smooth edges in noisy images [J ] . Information Sciences , 2013 , 246 : 28 - 51 .
CEYLAN Z . Short-term prediction of COVID-19 spread using grey rolling model optimized by particle swarm optimization [J ] . Applied Soft Computing , 2021 , 109 : 107592 .
CHEN X , LIU G , XIONG N , et al . A survey of swarm intelligence techniques in VLSI routing problems [J ] . IEEE Access , 2020 , 8 : 26266 - 26292 .
朱予涵 , 黄鸿斌 , 林泓星 , 等 . 连续微流控生物芯片下基于序列对的流层物理设计算法 [J ] . 计算机辅助设计与图形学学报 , 2022 , 34 ( 4 ): 535 - 544 .
ZHU Y H , HUANG H B , LIN H X , et al . Sequence-pair-based flow-layer physical design algorithm for continuous-flow microfluidic biochips [J ] . Journal of Computer-Aided Design and Computer Graphics , 2022 , 34 ( 4 ): 535 - 544 . (in Chinese)
MOLINA D , HERRERA F . Iterative hybridization of DE with local search for the CEC’2015 special session on large scale global optimization [C ] // IEEE Congress on Evolutionary Computation . Piscataway : IEEE , 2015 : 1974 - 1978 .
LIU G , ZHOU R , XU S , et al . Two-stage competitive particle swarm optimization based timing-driven X-routing for IC design under smart manufacturing [J ] . ACM Transactions on Management Information Systems , 2022 , 13 ( 4 ): 1 - 26 .
CHENG R , JIN Y . A social learning particle swarm optimization algorithm for scalable optimization [J ] . Information Sciences , 2015 , 291 : 43 - 60 .
王毅 , 李晓梦 , 耿国华 , 等 . 基于直觉模糊熵的混合粒子群优化算法 [J ] . 电子学报 , 2021 , 49 ( 12 ): 2381 - 2389 .
WANG Y , LI X M , GENG G H , et al . Hybrid particle swarm optimization algorithm based on intuitionistic fuzzy entropy [J ] . Acta Electronica Sinica , 2021 , 49 ( 12 ): 2381 - 2389 . (in Chinese)
刘耿耿 , 黄逸飞 , 王鑫 , 等 . 基于混合离散粒子群优化的Slew约束下X结构Steiner最小树算法 [J ] . 计算机学报 , 2021 , 44 ( 12 ): 2542 - 2559 .
LIU G G , HUANG Y F , WANG X , et al . Hybrid discrete particle swarm optimization algorithm for X-architecture Steiner minimal tree construction with Slew constraints [J ] . Chinese Journal of Computers , 2021 , 44 ( 12 ): 2542 - 2559 . (in Chinese)
YU Z , SI Z , LI X , et al . A novel hybrid particle swarm optimization algorithm for path planning of UAVs [J ] . IEEE Internet of Things Journal , 2022 , 9 ( 22 ): 22547 - 22558 .
ZHAO S Z , LIANG J J , SUGANTHAN P N , et al . Dynamic multi-swarm particle swarm optimizer with local search for large scale global optimization [C ] // IEEE Congress on Evolutionary Computation . Piscataway : IEEE , 2008 : 3845 - 3852 .
JIAN J R , CHEN Z G , ZHAN Z H , et al . Region encoding helps evolutionary computation evolve faster: A new solution encoding scheme in particle swarm for large-scale optimization [J ] . IEEE Transactions on Evolutionary Computation , 2021 , 25 ( 4 ): 779 - 793 .
XUE J , SHEN B , PAN A . An intensified sparrow search algorithm for solving optimization problems [J ] . Journal of Ambient Intelligence and Humanized Computing , 2023 , 14 ( 7 ): 9173 - 9189 .
0
浏览量
15
下载量
0
CSCD
- 网络PDF下载
- Meta-XML下载
- BibTeX下载
- Endnote下载
- RefMan 下载
- NoteExpress下载
- NoteFirst下载
关联资源
相关文章
相关作者
相关机构
- 技术支持由北京北大方正电子有限公司提供 京ICP备09064830号-19
京公网安备11010802024621 - 本系统建议在Chrome、 IE9+ 以上版本浏览器阅读本站内容,360浏览器请切换至极速模式
- Cookies帮助我们提供服务并提供个性化体验。使用本网站,即表示您同意我们使用Cookies