基于改进A*算法的数字微流控系统液滴路径规划研究
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1.仲恺农业工程学院,信息科学与技术学院,广州,510225 2.仲恺农业工程学院,智慧农业工程技术研究中心,广州,510225 3.仲恺农业工程学院,广州市农产品质量安全溯源信息技术重点实验室,广州,510225

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TP3

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国家自然科学基金(61871475)、广东省自然科学基金面上项目(2021A1515011605)、广州市创新平台建设计划实验室建设专项项目(201905010006)、广州市科学研究计划一般项目(201904010233、201903010043)资助


Research on Droplet Path Planning of Digital Microfluidic System Based on Improved A * Algorithm
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1. College of Information Science and Technology, Zhongkai University of Agriculture and Engineering, Guangzhou 510225, China 2. Smart Agriculture Engineering Research Center of Guangdong Higher Education Institutes, Zhongkai University of Agriculture and Engineering, Guangzhou 510225, China 3. Guangzhou Key Laboratory of Agricultural Products Quality & Safety Traceability Information Technology, Zhongkai University of Agriculture and Engineering, Guangzhou 510225, China

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    摘要:

    基于介电润湿(EWOD)效应的数字微流控系统(DMF)能实现微升级别的多个液滴移动,分裂,合成等操作。为了降低EWOD器件异质液滴之间的交叉污染,减少化学合成和生化检验在EWOD器件中的完成时间,保证器件的可靠性,本文通过Matlab平台对DMF系统环境进行空间建模,在基本A*算法的基础上,将拐点作为估计函数值的影响因子,融入液滴碰撞策略,提出了针对EWOD器件流体特征的改进A*算法。通过对化学合成实验的仿真模拟,该算法表现出了较好的液滴寻址优化特性。对比基本A*算法,在相同路径长度下(64个驱动电极),本研究算法能够有效减少冗余的拐点(减少10个)和液滴到达目标电极时间(减少约23s)。此外,改进的算法在复杂条件下(存在未知和已知故障)的多液滴合成实验也表现出较好的适应性(只需要24个时间戳即实现合成)。实验结果证明提出的液滴寻址算法对EWOD器件中多液滴的路径规划和调度优化具有较好的应用性和可靠性,可有效减少液滴应用在EWOD器件中的完成时间。

    Abstract:

    The digital microfluidic system (DMF) based on dielectric wetting (EWOD) effect can realize the movement, splitting, synthesis and other operations of multiple droplets at micro rise level. To reduce the cross contamination between heterogeneous droplets of EWOD devices, the completion time of chemical synthesis and biochemical testing in EWOD devices, and ensure the reliability of devices, this paper makes a spatial modeling of DMF system environment through MATLAB platform. Based on the basic A * algorithm, the inflection point is taken as the influence factor of the estimated function value and integrated into the droplet collision strategy, an improved A * algorithm for the fluid characteristics of EWOD devices is proposed. Through the simulation of chemical synthesis experiment, the algorithm shows good droplet addressing optimization characteristics. Compared with the basic A * algorithm, under the same path length (64 electrodes), this algorithm can effectively reduce the redundant inflection points (reduce 10) and the time for droplets to reach the target electrode (reduce about 23S). In addition, the improved algorithm also shows good adaptability (only needs 24 time stamps) in the experiments of multi-droplets synthesis under complex conditions (there are unknown and known faults). The experimental results show that the proposed droplet addressing algorithm has good applicability and reliability for multi droplet path planning and scheduling optimization in EWOD devices, and can effectively reduce the completion time of droplet applications in EWOD devices.

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罗智杰,黄子涛,彭翠玲,潘仲宇,刘双印,曹亮,尹航.基于改进A*算法的数字微流控系统液滴路径规划研究[J].电子测量技术,2021,44(21):56-63

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  • 在线发布日期: 2024-07-08
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