数据科学与大数据统计

麻晶晶

日期:2019年05月05日    点击数:

个人基本信息

麻晶晶 讲师,博士,主讲的课程为:统计学、数据可视化;主要研究方向为:生物计算与分子电路等

社会兼职

荣誉及获奖

主要科研成果

学术论文

[1]麻晶晶, 许进. DNA-纳米颗粒共聚体在最大匹配问题中的应用. 电子与信息学报. 2021.2.

[2]麻晶晶, 许进. 基于DNA折纸术求解图的顶点着色问题的方法. 电子与信息学报. 2020.8.

[3]Jingjing Ma, Jin Xu. Logic gates in nanoscale based on interaction of thiolated DNA with AuNPs and strand displacement. BioSystems. 2021.4.

[4]Jingjing Ma; Application of DNA Nanoparticle Conjugation on the Hamiltonian Path Problem. Journal of Nanoelectronics and Optoelectronics. 16 (3), 501-505 (2021)

[5]Jingjing Ma. A Method for Solving the Minimum Vertex Covering Problem Based on Graphene. Journal of Nanoelectronics and Optoelectronics. 16, 460–465 (2021)

[6]Jingjing Ma. 3D DNA Self-Assembly Algorithmic Model to Solve the Hamiltonian Path Problem. Journal of Nanoelectronics and Optoelectronics.16, 731–737 (2021

[7]Jingjing Ma. Molecular Logic Gate Based on DNA Strand Displacement Reaction. Journal of Nanoelectronics and Optoelectronics. 16, 974–977 (2021)

[8]Jingjing Ma. Algorithm for Graph’s Connectivity Problem Based on DNA Origami. Journal of Nanoelectronics and Optoelectronics.16, 333–336 (2021)

[9]Jingjing Ma ; Wenbin Gao, DNA 3D Self-assembly Algorithmic Model to Solve Maximum Clique Problem, International Conference on Bio-Inspired Computing: Theories and Applications. Beijing, China. , 2018.11.2-2018.11.4

[10]YafeiDongYanchai WangJingjing Ma*Li JiaThe Application of DNA Nanoparticle Conjugates on the Graph’s Connectivity ProblemAdvances in Intelligent Systems and Computing2013,212,257-265.

主持项目

山西省教育厅,山西省教学改革创新项目:基于“互联网+教育”智慧教学和融入创新创业教育的统计学实验实践教学体系建设研究   

联系方式

电话:18435137352

Email:casy-20@126.com

 

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