郑小平 教授

危爆物品扫描探测技术国家工程实验室  副主任
检测与电子技术研究所  副所长

通信地址:清华大学中央主楼813室 邮政编码:100084
Email: asean@mail.tsinghua.edu.cn

教育背景

四川大学 博士(2003)
成都中医药大学 学士(1995)

工作履历

清华大学 自动化系 教授 (2013-)

北京化工大学 安全管理研究所 教授 (2006-2013)

复旦大学管理科学系 博士后(2004-2006)

学术兼职

国家安全生产专家组 信息化组 副组长

中国安全防范产品行业协会(公安部) 专家委员会 委员

中国仓储协会 专家委员会 委员

中国发明协会 常务理事

中国自动化学会过程控制专业委员会第四届委员


研究领域

[1] 面向危爆物品的太赫兹雷达探测与成像技术
面向公共安全和应急处置场景下的危爆物品,以太赫兹波为主要技术手段,研制快速、高分辨率、高稳定性和自动化智能化的探测与成像系统,重点研究信号处理和雷达天线。

[2] 大规模群体紧急疏散理论与方法
在重特大危险化学品扩散场景下,研究大规模逃生群体的行为演化、分布预测和疏散策略和疏散设施配置等,为应急预案、应急处置和选址决策提供科学依据。

[3] 危险化学品的大气扩散过程与扩散源示踪系统装置
研究危险化学品在不同风速风向、污染物、温度湿度和障碍物环境下的物理扩散过程;基于履带式机器人的现场行动能力,形成扩散源和重点区域的精确化示踪和刻画能力,为应急处置提供决策依据。


研究概况

[1]国家重点基础研究发展计划资助(973):危险化学品事故全过程遥测预警的关键科学问题研究,批准号:2011CB706900,2011/01-2015/08,项目首席科学家。

[2]国家杰出青年科学基金:公共安全与应急管理,批准号:71225007,2013/01-2016/12,项目负责人。

[3]国家自然科学基金面上项目:面向爆炸物探测的太赫兹雷达天线研制,批准号:61575103 ,2016/01-2019/12,项目负责人。

[4]国家重点研发计划项目:典型危险化学品储存设施安全预警与防护一体化关键技术研究与应用示范,批准号:2016YFC0801200,2016/07-2020/06,项目负责人。

[5]国家重点研发计划项目:易燃易爆危险化学品灾害事故应急处置技术装备研发与应用示范,批准号:2016YFC0801300,2016/07-2020/06,参与/技术负责人。

奖励与荣誉

973首席科学家(2011)

国家杰出青年科学基金获得者(2012)

学术成果

主要论著:
[1] Wang Xiaolu, Guo Wei, Cheng Yuan, Zheng Xiaoping. Understanding the centripetal effect and evacuation efficiency of evacuation assistants: using the extended dynamic communication field model[J]. Safety science, 2015, 74: 150-159.

[2] Huang Keke, Zheng Xiaoping, Li Zhejie, Yang Yeqing. Understanding Cooperative Behavior Based on the Coevolution of Game Strategy and Link Weight[J]. Scientific reports, 2015, 5.

[3] Huang Keke, Zheng Xiaoping, Yang Yeqing, Wang Tao. Behavioral evolution in evacuation crowd based on heterogeneous rationality of small groups[J]. Applied Mathematics and Computation, 2015, 266: 501-506.

[4] Guo Wei, Wang Xiaolu, Zheng Xiaoping. Lane formation in pedestrian counterflows driven by a potential field considering following and avoidance behaviours[J]. Physica A: Statistical Mechanics and its Applications, 2015, 432: 87-101.

[5] Wang Tao, Huang Keke, Cheng Yuan, Zheng Xiaoping. Understanding herding based on a co-evolutionary model for strategy and game structure[J]. Chaos, Solitons & Fractals, 2015, 75: 84-90.

[6] Wang Xiaolu, Guo Wei, Zheng Xiaoping. Effects of evacuation assistant’s leading behavior on the evacuation efficiency: Information transmission approach [J]. Chinese Physics B, 2015, 24(7): 070504.

[7] Huang Keke, Zheng Xiaoping, Su Yunpeng. Effect of heterogeneous sub-populations on the evolution of cooperation[J]. Applied Mathematics and Computation, 2015, 270: 681-687.

[8] Huang Keke, Cheng Yuan, Zheng Xiaoping, Yang Yeqing. Cooperative behavior evolution of small groups on interconnected networks[J]. Chaos, Solitons & Fractals, 2015, 80: 90-95.

[9] Huang Keke, Wang Tao, Cheng Yuan, Zheng Xiaoping. Effect of heterogeneous investments on the evolution of cooperation in spatial public goods game[J]. PloS one, 2015, 10(3): e0120317.

[10] Guo Wei; Wang Xiaolu; Liu Mengting; Cheng Yuan; Zheng Xiaoping. Modification of the dynamic floor field model by the heterogeneous bosons[J]. Physica A: Statistical Mechanics and its Applications, 2015, 417: 358-366.

[11] Wang Tao, Huang Keke, Wang Zhen, Zheng Xiaoping. Impact of small groups with heterogeneous preference on behavioral evolution in population evacuation[J]. PloS one, 2015, 10(3): e0121949.

[12] Zhang Jianwen; Yin Xinxin; Xin Yanan; Zhang Jian; Zheng Xiaoping; Jiang Chunming. Numerical investigation on three-dimensional dispersion and conversion behaviors of silicon tetrachloride release in the atmosphere[J]. Journal of hazardous materials, 2015, 288: 1-16.

[13] Lu Peng, Zheng Xiaoping. Social Stratification and Cooperative Behavior in Spatial Prisoners' Dilemma Games[J]. PloS one, 2015, 10(7): e0131005.

[14] Liao Weichen; Zheng Xiaoping; Cheng Lisheng; Zhao Ying; Cheng Yuan; Wang Yafei. Layout effects of multi-exit ticket-inspectors on pedestrian evacuation[J]. Safety science, 2014, 70: 1-8.

[15] Liao Weichen;  Chraibi Mohcine;  Seyfried Armin;  Zhang Jun;  Zheng Xiaoping;  Zhao Ying. Validation of FDS+ Evac for pedestrian simulations in wide bottlenecks[C]//17th International IEEE Conference on Intelligent Transportation Systems (ITSC). IEEE, 2014: 554-559.

[16] Wang Yafei, Zheng Xiaoping. Numerical and experimental study of the influence of pressure work on pyrolysis of wood exposed to radiation[J]. Journal of applied fire science, 2013, 23(3): 319-335.

[17] Wang Yafei, Zheng Xiaoping. Location optimization for evacuation signs and cellular automaton model simulation for evacuation in smoke[J]. Journal of applied fire science, 2013, 23(3): 283-297.

[18] Wang Yafei, Zheng Xiaoping. Modeling and experimental study of the effect of pressure on pyrolysis of wet wood[J]. Journal of Fire Sciences, 2013, 31(6): 495-510.

[19] Zhang Heda, Zheng Xiaoping. Characteristics of hazardous chemical accidents in China: A statistical investigation[J]. Journal of Loss Prevention in the Process Industries, 2012, 25(4): 686-693.

[20] Wang Xiaolu, Zheng Xiaoping, Cheng Yuan. Evacuation assistants: An extended model for determining effective locations and optimal numbers[J]. Physica A: Statistical Mechanics and its Applications, 2012, 391(6): 2245-2260.

[21] Zheng Xiaoping, Cheng Yuan. Modeling cooperative and competitive behaviors in emergency evacuation: A game-theoretical approach[J]. Computers & Mathematics with Applications, 2011, 62(12): 4627-4634.

[22] Liu Mengting, Zheng Xiaoping, Cheng Yuan. Determining the effective distance of emergency evacuation signs[J]. Fire Safety Journal, 2011, 46(6): 364-369.

[23] Zheng Xiaoping, Chen Zengqiang. Inverse calculation approaches for source determination in hazardous chemical releases[J]. Journal of Loss Prevention in the Process Industries, 2011, 24(4): 293-301.

[24] Zheng Xiaoping, Cheng Yuan. Conflict game in evacuation process: A study combining Cellular Automata model[J]. Physica A: Statistical Mechanics and its Applications, 2011, 390(6): 1042-1050.

[25] Liu Shuang; Xiang Zhonghua; Hu Zan; Zheng Xiaoping; Cao Dapeng. Zeolitic imidazolate framework-8 as a luminescent material for the sensing of metal ions and small molecules[J]. Journal of Materials Chemistry, 2011, 21(18): 6649-6653.

[26] Zhang Jianwen; Wang Yuwei; Zheng Xiaoping; Wang Zheng. Back-calculation of source strength and position by a hybrid genetic-Nelder Mead simplex algorithm[J]. Systems Engineering-Theory & Practice, 2011, 31(8):1581-1587.
 

授权专利:
[1] 郑小平,苏云鹏,刘梦婷,程远,一种太赫兹快速断层成像系统及方法,2014.09.03,中国,ZL201410258504.3

[2] 郑小平,姜兆宇,刘梦婷,程远,一种宽带太赫兹时域光谱的便携式分析装置,2014.10.24,中国,ZL201420310862.X

[3] 郑小平,苏云鹏,刘梦婷,程远,一种高功率远距离太赫兹旋转抛物面定向发射天线,2014.12.17,中国,ZL201420310865.3

[4] 郑小平,姜兆宇,刘梦婷,程远,一种用于模拟太赫兹大气传播的实验装置,2014.09.22,中国,ZL201420310861.5

[5] 刘梦婷,郑小平,程远,一种智能变向的应急疏散方法及系统,2014.09.03,中国,ZL201410270384.9


开设课程
太赫兹技术概论 (本科生)

太赫兹探测与成像技术 (研究生)