姓名:董莉莉
职务、职称:专任教师,讲师
办公室:商学院310
邮箱:donglilibaihe@163.com
教育经历
2005.9-2009.6 郑州大学 工业工程
2009.9-2012.6 郑州大学 管理科学与工程
2016.9-2019.6 武汉大学 管理科学与工程
讲授课程
《组织行为学》、《保险学原理》
研究领域
环境治理、复杂系统建模、复杂网络与博弈论
学术成果
项目:
国家自然科学基金,排污权二级交易市场企业参与行为及引导性机制优化设计研究(72104071),2022.01-2024.12,主持人。
论文:
[1] 董莉莉. 碳规划:低碳扩散中政府补贴及监管策略优化[m]. 中国经济出版社,2021.
[2] 董莉莉,范如国. 政府低碳补贴的最优监管策略及其最优边界问题[j]. 中国人口. 资源与环境,2021,31(8):13-22.
[3] 董莉莉,范如国. 基于随机演化博弈的异质性主体中低碳扩散稳定性的仿真分析[j]. 工业工程,2021,24(6):132-139.
[4] ruguo fan, lili dong. the dynamic analysis and simulation of government subsidy strategies in low-carbon diffusion considering the behavior of heterogeneous agents [j]. energy policy, 2018, 117: 252-262.
[5] ruguo fan, lili dong, weiguo yang, jiaqin sun. study on the optimal supervision strategy of government low-carbon subsidy and the corresponding efficiency and stability in the small-world network context [j]. journal of cleaner production, 2017, 168: 536-550.
[6] chaogai xue, lili dong, junjuan liu. enterprise information system structure optimization based on time property with improved immune genetic algorithm and binary tree [j]. computers & mathematics with applications, 2012, 63(7): 1155-1168.
[7] 董莉莉,薛朝改. 基于改进的topsis法的企业信息系统适应性评价[j]. 工业工程与管理,2012,17(1):
[8] chaogai xue, lili dong, guohua li. an improved immune genetic algorithm for the optimization of enterprise information system based on time property [j]. journal of software, 2011, 6(3): 436-443.
[9] chaogai xue, lili dong. evaluation of information tightness in advanced manufacturing modes based on object-based knowledge mesh [j]. journal of advanced manufacturing systems, 2011, 10(1): 215-221.
[10] lili dong, chaogai xue. a study on object-based knowledge mesh structure optimization based on time property [c]. iccasm 2010 - 2010 international conference on computer application and system modeling, proceedings, 2010, 9: v9-234 - v9-237.
[11] lili dong, chaogai xue, guohua li. an improved immune genetic algorithm based on niche algorithm and its application[c]. 2010 2nd international symposium on information engineering and electronic commerce, ieec 2010, ternopil, ukraine, 2010: 17-20.
所获荣誉
2021年度河南省高校哲学社会科学研究优秀成果一等奖。
