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导师信息——陈瀚宁


发布日期:2023-03-13

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基本信息:


姓名:陈瀚宁


性别:男


职称:研究员


电子邮箱:chenhanning@tust.edu.cn


通讯地址:天津经济技术开发区第十三大街29号天津科技大学西校区8号楼307室


研究方向:人工智能引领的智能制造


招生专业:


(1)院系名称:人工智能学院


招生类别:硕士


学位类型:学术学位


专业大类:工学


一级学科:软件工程


专业名称:软件工程


类别:全日制


(2)院系名称:人工智能学院


招生类别:硕士


学位类型:专业学位


专业大类:工学


一级学科:计算机技术


专业名称:电子信息


类别:全日制


代表性论文:


1.第一作者论文

(1) Chen, HN, Ma, LB, He MW, Wang XW*, Liang XD, Sun LL, Huang M, Artificial Bee Colony Optimizer Based on Bee Life-cycle for Stationary and Dynamic Optimization, IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2017, 4(2): 327-346

(2) Chen, HN*, Zhu, YL, Ma, LB, Su, WX, Bacterial colony foraging for multi-mode product colour planning, International Journal of Bio-Inspired Computation, 2015,7(4):240-262

(3) Chen, HN*, Zhu, YL, Hu, KY, Ma, LB, Bacterial Colony Foraging Algorithm: Combining Chemotaxis, Cell-to-cell Communication, and Self-adaptive Strategy, Information Sciences, 2014, 273: 73-100

(4) Chen, HN, Ma, LB, Zhu, YL*, Multi-Hive Bee Foraging Algorithm for Multi-objective Optimal Power Flow Considering the Cost, Loss, and Emission, International Journal of Electrical Power & Energy Systems, 2014, 60: 203-220

(5) Chen, HN*, Niu, B, Ma, LB, Su, WX, Zhu, YL, Bacterial colony foraging optimization, Neurocomputing, 2014,137: 268–284

(6) Chen, HN*, Zhu, YL, Hu, KY, Multi-colony bacteria foraging optimization with cell-to-cell communication for RFID network planning, Applied Soft Computing, 2010, 10(2): 539-547

(7) H.N. Chen*, Y.L. Zhu, A Discrete Multi-swarm Optimizer for RFID Network Scheduling, Journal of Central South University, 2014, 21(1): 199-212

(8) H.N. Chen*, Y.L. Zhu, Bacterial Colony Foraging Model: combing chemotaxis, Cell-to-cell Communication, and Self-adaptive strategy, Journal of Investigative Medicine, 2013, 61(4): S9-S9

(9) H.N. Chen*, Y.L. Zhu, A Lifecycle Model for Simulating Bacterial Colony Evolution, Journal of Investigative Medicine, 2013, 61(4): S25-S25

(10) H.N. Chen*, Y.L. Zhu, Bio-inspired Algorithm for Optimal Dynamic Deployment of RFID Reader Networks, Electronics World, 2013, 119(1921): 36-39

(11) H.N. Chen*, Y.L. Zhu, K.Y. Hu, D. Man, W.S. Su, A Novel Bacterial Foraging Algorithm For Multi-working Mode Product Color Planning, Information, 2012, 15(1): 123-130

(12) H.N. Chen*, Y.L. Zhu, K.Y. Hu, T. Ku, RFID network planning using a multi-swarm optimizer, Journal of Network and Computer Applications, 2011, 34(3): 888-901

(13) H.N. Chen*, Y.L. Zhu, K.Y. Hu, Adaptive Bacterial Foraging Optimization, Abstract and Applied Analysis, 2011:1-27

(14) H.N. Chen*, Y.L. Zhu, K.Y. Hu, Multi-colony Bacteria Foraging Optimization with Cell-to-cell Communication for RFID Network Planning, Applied Soft Computing, 2010, 10(2): 539-547

(15) H.N. Chen*, Y.L. Zhu, K.Y. Hu, X.X. He, Hierarchical Swarm Model: A New Approach to Optimization, Discrete Dynamic in Nature and Society, 2010:1-30

(16) H.N. Chen*, Y.L. Zhu, K.Y. Hu, Virtual Enterprise Risk Management Using Artificial Intelligence, Mathematical Problems in Engineering, 2010:1-20

(17) H.N. Chen*, Y.L. Zhu, K.Y. Hu, Discrete and Continuous Optimization based on Multi-swarm Coevolution, Natural Computing, 2010, 9(3): 659-682

(18) H.N. Chen*, Y.L. Zhu, K.Y. Hu, Virtual Enterprise Risk Management Using Artificial Intelligence, Mathematical Problems in Engineering, 2009:1-17

(19) H.N. Chen*, Y.L. Zhu, Q.H. Wu, B. Niu, An Improved Group Search Optimizer for Mechanical Design Optimization Problems, Progress in Natural Science, 2009, 19(1): 91-97

(20) H.N. Chen*, Y.L. Zhu, Optimization based on Symbiotic Multi-species Coevolution, Applied Mathematics and Computation, 2008, 47(1): 47-60

2.通讯作者论文

(21) MW He, YB Hu, HN Chen*, LL Sun, XX Wang, WX Su, F Liu, XD Liang, LB Ma, Lifecycle Coevolution Framework for many evolutionary and swarm intelligence algorithms fusion in solving complex optimization problems, Swarm and Evolutionary Computation, 2019,47:3-20

(22) Yabao Hu, Hanning Chen*, Maowei He*, Liling Sun, Rui Liu and Hai Shen, Multi-Swarm Multi-Objective Optimizer Based on p-Optimality Criteria for Multi-Objective Portfolio Management, MATHEMATICAL PROBLEMS IN ENGINEERING, 2019

(23) Weixing Su, Hanning Chen*, Fang Liu, Na Lin, Shikai Jing, Xiaodan Liang, Wei Liu, A novel comprehensive learning artificial bee colony optimizer for dynamic optimization biological problems, Saudi Journal of Biological Sciences, 2017, 3(24): 695-702

(24) Na Lin, Hanning Chen*, Shikai Jing, Fang Liu, Xiaodan Liang, Biomimicry of symbiotic multi-species coevolution for discrete and continuous optimization in RFID networks, Saudi Journal of Biological Sciences, 2017, 3(24): 610-621

(25) Man Ding, Hanning Chen*, Na Lin, Shikai Jing, Fang Liu, Xiaodan Liang, Wei Liu, Dynamic population artificial bee colony algorithm for multi-objective optimal power flow, Saudi Journal of Biological Sciences, 2017, 3(24): 703-710

(26) Weixing Su, Lin Na, Fang Liu, Wei Liu, Muhammad Aqeel Ashraf, Hanning Chen*, Artificial Plant Root System Growth for Distributed Optimization: Models and Emergent Behaviors, Open Life Sciences, 2017, 11(1):447-457

(27) Jing, S.K., Ma, LB, Zhu, YL, Chen, H.N.*, A restructured artificial bee colony optimizer combining life-cycle, local search and crossover operations for droplet property prediction in printable electronics fabrication, Journal of Intelligent Manufacturing, 2016:1-26

(28) Jing, S.K., Liang X.D., Chen, H.N.*, Ma, LB, Optimal layout and deployment for RFID system using a novel hybrid artificial bee colony optimizer based on bee life-cycle model, Soft Computing, 2016:1-29

(29) Ding M., Chen, H.N.*, Computer-aided Approach to Medicine Color Planning, Basic & Clinical Pharmacology & Toxicology, 2016, 118: (Suppl. 1), 3–117

(30) Ding M., Chen, H.N.*, Multi-emotional Drug Design Using Gray Theory and Physical Programming, Basic & Clinical Pharmacology & Toxicology, 2016, 118: (Suppl. 1), 3–117

(31) Ma, LB, Zhu, YL, Hu, KY, Chen, HN*, A hybrid artificial bee colony optimizer by combining with life-cycle, Powell's search and crossover, Applied Mathematics and Computation, 2015, 252: 133-154

(32) Ma, LB, Zhu, YL, Liu, Y, Tian LW, Chen, HN*, A novel bionic algorithm inspired by plant root foraging behaviors, Applied Soft Computing, 2015, 37: 95-113

(33) Ma, LB, Zhu, YL, Hu, KY, Chen, HN*, Cooperative artificial bee colony algorithm for multi-objective RFID network planning, Journal of Network and Computer Applications, 2014, 42: 143–162

(34) L.B. Ma, Y.L. Zhu, K.Y. Hu, H.N. Chen*, Cooperative Artificial Bee Colony Algorithm for Multi-objective RFID Network Planning, Journal of Network and Computer Applications, 2014:1-20

(35) L. Wei, B. Niu, Y.L. Zhu, H.N. Chen*, Artificial Bee Colony Algorithm for Reader Collision Problem in RFID Network, Journal ofComputational and Theoretical Nanoscience, 2013, 10(12): 2877-2883

(36) L. Wei, B. Niu, Y.L. Zhu, H.N. Chen*, Robot Path Planning Using a Self-adaptive Bacterial Foraging Algorithm, Journal of Computational and Theoretical Nanoscience, 2013, 10(12): 2890-2896

(37) L. Yang*, K.Y. Hu, Y.L. Zhu, H.N. Chen*, Image Segmentation Using Artificial Intelligence Approaches, Electronics World, 2013, 119(1931): 39-41

(38) L.B. Ma, Y.L. Zhu, K.Y. Hu, H.N. Chen*, Computational Evolution of Social Behavior in Bacterial Colony Optimization Model, Journal of Pure and Applied Microbiology, 2013, 10(12): 2890-2896

(39) Y.C. Shao, X.J. Yao, L.W. Tian, H.N. Chen*, A Multiswarm Optimizer for Distributed Decision Making in Virtual Enterprise Risk Management, Discrete Dynamics in Nature and Society, 2012:1-24

(40) Yabao Hu, Hanning Chen, Xiaodan Liang, Jichang Xie, Monitoring molten pool temperature, grain size and molten pool plasma with integrated area of the spectrum during laser additive manufacturing, Journal of Manufacturing Processes, 2021.

(41) Xia Y, Chen H, Liang X, et al, Circular oscillating laser melting deposition of nickel-based superalloy reinforced by WC: Microstructure, wear resistance and electrochemical properties, Journal of Manufacturing Processes,2021.

(42) Yabao Hu, Hanning Chen, Xiaodan Liang, Jianbo Lei, Titanium fabricated by selective laser melting: microstructure, wear and corrosion behavior in different orientations, Rapid Prototyping Journal,2021.

(43) Yabao Hu, Hanning Chen, Xiaodan Liang, Mo Jia, Jianbo Lei, Microstructure and biomechanical properties in selective laser melting of porous metal implants, 3D Printing and Additive Manufacturing,2021.

(44) Yelin Xia, Zhaozhen Huang, Hanning Chen, Xiaodan Liang, Jianbo Lei, Numerical simulation and experimental investigation on powder transport of a new-type annular coaxial nozzle, The International Journal of Advanced Manufacturing Technology,2021.

(45) Yelin Xia, Zhaozhen Huang, Hanning Chen*, Xiaodan Liang, Chuan Shi, In-situ spectral monitoring of microstructure during laser melting deposition: a case study of CoCrMoW alloy, Rare metal materials and engineering,2020.

3.既非第一作者又非通讯作者论文

(46) H. Zhang*, Y.L. Zhu, H.N. Chen, Root growth model: a novel approach to numerical function optimization and simulation of plant root system, Soft Computing,2014, 18(3): 521-537

(47) X.H.Yan*, Y.L Zhu., H.N. Chen, ZhangH., A novel hybrid artificial bee colony algorithm with crossover operator for numerical optimization, Natural Computing, 2014:1-16

(48) X.H.Yan*, Y.L Zhu., ZhangH., H.N. Chen, B. Niu, An Adaptive Bacterial Foraging Optimization Algorithm with Lifecycle and Social Learning, Discrete Dynamics in Nature and Society, 2012:1-20

(49) W.P.Zou*, H.N. Chen, B.W. Zhang, Solving Multiobjective Optimization Problems Using Artificial Bee Colony Algorithm, Discrete Dynamics in Nature and Society, 2011:1-20

(50) M. Ding, W. Sun, H.N. Chen, Multi-working Modes Product Color Planning based on Evolutionary Algorithms and Swarm Intelligence, Mathematical Problems in Engineering, 2010:1-15

(51) W.P.Zou*, Y.L Zhu., H.N. Chen, X. Sui, A Clustering Approach Using Cooperative Artificial Bee Colony Algorithm, Discrete Dynamic in Nature and Society, 2010:1-16

主要著作:

(1) 朱云龙,陈瀚宁,申海,张浩. 生物群智计算与机器学习,清华大学出版社,2020

(2) Chen Hanning, He Maowei, Ma Lianbo, BIO-INSPIRED COMPUTATION AND COMPLEX ADAPTIVE SYSTEM IN ENGINEERING, Cayley Nielson, 2017

(3) 朱云龙,陈瀚宁,申海. 生物启发计算——个体、群体、群落演化模型与方法,清华大学出版社,2013

科研项目:

(1) 十三五国家重点研发计划,2018YFB1701802,分布式研发设计资源集成管理与共享关键技术,2019.06-2022.05,95万元,在研,课题负责人

(2) 十三五国家重点研发计划,2019YFB1706302,纺织服装关键制造工艺的智能工厂管控技术与示范,2019.12-2022.11,在研,课题负责人

(3) 国家自然科学基金面上项目,61772365,多孔金属骨缺损替代物增材制造过程的智能建模与优化算法研究,2018/01-2021/12,61万元,已结题,主持

(4) 十三五国家重点研发计划激光制造重点专项子课题,2017YFB1103604,不同工业领域修复判据、性能评价、标准制定及工程应用,2017/07-2020/12,85.5万元,已结题,主持

(5) 十三五国家重点研发计划激光制造重点专项子课题,2017YFB1103000,纺织智能工厂,2017/07-2020/12,98万元,已结题,参与

(6) 天津市自然基金-青年基金-一般项目,17JCYBJC15100,基于生物最优觅食行为的优化算法研究及其在复杂系统行为分析中的应用,2017/04-2020/03,10万元,已结题,主持

(7) 十三五国家重点研发计划激光制造重点专项子课题,2016YFB1100501,高性能航空用大型金属结构激光同步送粉增材制造工艺与装备,2016/06-2020/05,20万元,已结题,主持

(8) 天津市自然基金-科技计划项目,16ZLZDZF00150,促进天津市智能机器人产业发展的对策研究,2016/10-2017/09,10万元,已结题,主持

(9) 企业委托,P2016A001,秸秆预处理生产线及水解设备研发与应用,2016/04-2017/12,1660万元,已结题,主持

(10) 国家863计划军口部分子课题,2015AA7046305,在轨可维修无线能量传输电源系统研究,2015/07-2016/06,10万元,已结题,主持

(11) 中国科学院重点实验室开放课题,WLHKZ2015001,模拟植物生长的新型生物启发式优化模型与方法研究,2015/06-2016/06,4万元,已结题,主持

(12) 2015智能制造专项子课题,2015ZXC0210301,新能源客车智能化工厂,2014/01-2017/12,45万元,已结题,主持

(13) 辽宁省优秀人才培育基金,2014010094-301,面向重点应用领域的生物启发计算理论与优化方法,2012/06-2014/05,5万元,已结题,主持

(14) 佛山市院市合作项目,2012HY100523,基于物联网的家具商贸综合服务平台研发与应用示范,2012/06-2014/05,600万元,已结题,主持

(15) 佛山市院市合作项目,2012HY100643,乐从家具商贸产业全程电子商务服务平台建设,2012/06-2014/05,330万元,已结题,主持

(16) 国家科技支撑计划项目课题,2012BAH15F05,基于智能终端的互动社区服务平台与应用示范,2012/01-2014/12,110万元,已结题,主持

(17) 国家自然科学基金青年项目,61105067,基于生物行为的RFID系统优化模型与算法研究,2012/01-2014/12,25万元,已结题,主持

(18) 中国科学院创新促进会人才基金,Y2A1062701,中国科学院创新促进会人才基金,2012/01-2014/12,40万元,已结题,主持

(19) 国家自然科学基金面上项目,61174164,基于细菌行为模式的复杂系统建模与优化方法研究,2012/01-2015/12,63万元,已结题,参与

获奖:

(1) 陈瀚宁(1/8),复杂智能制造的学习型群体智能优化理论与方法,天津市自然科学奖,二等奖,2022

(2) 陈瀚宁(2/6),复杂生物系统演化模型与优化的基础理论与方法,辽宁省科学技术厅,辽宁省自然科学奖,二等奖,2017

(3) 陈瀚宁(1/2),Optimization Based on Symbiotic Multi-species Coevolution,辽宁省科学技术协会,辽宁省自然科学学术成果奖,一等奖,2009

专利:

(1) 一种增材制造激光成型设备及方法, 陈瀚宁(#); 苏卫星; 何茂伟; 王正方; 朱显著; 朱广为, 申请, 2019.5.17, 201910411626.4 发明专利

(2) 一种铺粉装置及其应用, 陈瀚宁(#); 梁晓丹; 徐思文; 孙丽玲(*); 苏卫星; 何茂伟; 朱广为; 王正方, 申请, 2019.5.17, 201910414195.7发明专利

(3) 一种基板安装机构及其应用, 陈瀚宁(#); 梁晓丹; 徐思文; 孙丽玲(*); 苏卫星; 何茂伟; 朱广为; 王正方, 申请, 2019.5.17, 201910414187.2  发明专利

(4) 一种极坐标同轴送粉式增材制造设备及方法, 陈瀚宁(#); 苏卫星; 何茂伟(*); 王正方; 朱显著; 朱广为, 申请, 2019.5.17, 201910410238.4 发明专利

(5) 一种模块化增减材制造装置及方法, 陈瀚宁(#); 苏卫星; 何茂伟(*); 王正方; 朱显著; 朱广为, 申请, 2019.5.17, 201910413408.4 发明专利

(6) 一种增减材四工位近净成形设备及成形方法, 陈瀚宁(#); 苏卫星; 何茂伟(*); 王正方; 朱显著; 朱广为, 申请, 2019.5.17, 201910410311.8发明专利

(7) 一种铺粉装置、增材制造设备及方法, 陈瀚宁; 徐思文; 梁晓丹; 苏卫星; 何茂伟; 刘芳, 申请, 2020.12.02, 202011388626.6 发明专利

(8)一种多刮刀铺粉装置、增材制造设备及方法,陈瀚宁; 徐思文; 梁晓丹; 苏卫星; 何茂伟; 刘芳, 申请, 2020.12.02,202011388636.X 发明专利

(9)一种电动刮刀替换铺粉系统、增材制造设备及方法,陈瀚宁; 徐思文; 梁晓丹; 苏卫星; 何茂伟; 刘芳, 申请, 2020.12.02,202011388657.1 发明专利

(10) 一种增材制造激光成型设备, 陈瀚宁(#); 苏卫星; 何茂伟(*); 王正方; 朱显著; 朱广为, 授权, 2019.5.17, 201920708501.3 实用新型

(11) 一种极坐标同轴送粉式增材制造设备, 陈瀚宁(#); 苏卫星; 何茂伟(*); 王正方; 朱显著; 朱广为, 授权, 2019.5.17, 201920710819.5  实用新型

(12) 一种模块化增减材制造装置、增减材制造单元及流水线, 陈瀚宁(#); 苏卫星; 何茂伟(*); 王正方; 朱显著; 朱广为, 授权, 2019.5.17, 201920710803.4实用新型

(13) 一种增减材四工位近净成形设备, 陈瀚宁(#); 苏卫星; 何茂伟(*); 王正方; 朱显著; 朱广为, 授权, 2019.5.17, 201920710962.4实用新型

(14) 一种铺粉装置, 陈瀚宁(#); 梁晓丹; 许思文; 孙丽玲(*); 苏卫星; 何茂伟; 朱广为; 王正方, 授权, 2019.5.17, 201920711885.4 实用新型

(15) 一种基板安装机构, 陈瀚宁(#); 梁晓丹; 徐思文; 孙丽玲(*); 苏卫星; 何茂伟; 朱广为; 王正方, 授权, 2019.5.17, 201920712912.X 实用新型

(16)一种铺粉装置及增材制造设备, 陈瀚宁; 徐思文; 梁晓丹; 苏卫星; 何茂伟; 刘芳, 授权, 2020.12.02, 202022859663.2实用新型

(17)一种多刮刀铺粉装置及增材制造设备,陈瀚宁; 徐思文; 梁晓丹; 苏卫星; 何茂伟; 刘芳, 申请, 2020.12.02,202022849801.9实用新型

(18)一种电动刮刀替换铺粉系统及增材制造设备,陈瀚宁; 徐思文; 梁晓丹; 苏卫星; 何茂伟; 刘芳, 授权, 2020.12.02,202022858952.0实用新型


 
 

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