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谭超

发布时间: 2016-10-09     来源:

个人资料:

姓名:谭超

职称:教授/博士生导师

学科专业:控制科学与工程/检测技术与自动化装置学科

通讯地址:天津大学电气自动化与信息工程学院26教学楼E435

电子信箱:tanchao@tju.edu.cn

电话/传真:13920986252

主要经历:

(1)      2018.07-至今      天津大学电气自动化与信息工程学院,教授,博士生导师

(2)      2013.07-2018.06   天津大学电气与自动化工程学院,副教授,博士生导师

(3)      2009.04-2013.06   天津大学电气与自动化工程学院,讲师

 

主要研究方向:

研究内容紧密结合检测技术与自动化装置领域的技术发展趋势,包括多相流过程/分布参数检测、过程层析成像、生物信息测试与成像技术、多传感器信息融合技术、智能传感与机器学习等,在新型智能传感仪器的软硬件系统开发、层析成像与信息处理算法设计、复杂流动过程测试建模等领域承担多项国家与省部级重要课题,在检测技术领域国内外重要期刊上发表论文70余篇,其中SCI论文40篇,申请国家发明专利45项,授权17项,软件著作权2项,担任4本检测领域重要SCI期刊编委与客座主编(含3IEEE期刊),研究成果获天津市自然科学三等奖,日本学术振兴会(JSPSinvitational fellow,以及多项国内外重要学术期刊与国际会议优秀论文奖,研发的测试仪器在教学、科研与生产中获得应用。

 

主要科研项目:

[1].    2015.01-2018.12国家自然科学基金面上项目水平油水两相流超声/电学阵列传感器融合测试方法,批准号61473206,项目负责人

[2].    2016.04-2018.03国家自然科学基金委员会与英国爱丁堡皇家学会合作交流项目(NSFC-RSE基于多频电学成像的多相流过程可视化测试系统,批准号61611130126,项目负责人

[3].    2012.01-2014.12国家自然科学基金青年基金基于环形通道的油水两相流多传感器测量机理研究,批准号61104207,项目负责人

[4].    2011.01-2013.12教育部博士点新教师基金油气水三相流多传感器集成测量关键问题研究,批准号20100032120076,项目负责人

[5].    天津市应用基础研究计划重点项目油气水三相流声电多源信息融合成像与参数测试方法,批准号17JCZDJC38400,项目负责人

[6].    2011.04-2014.03天津市应用基础研究计划油气水三相流多源检测机理与融合方法研究,批准号11JCYBJC06700,项目负责人

[7].    2013.01-2016.12国家自然科学基金仪器专项油气水多相流过程参数可视化测试仪,批准号61227006,第2负责人

[8].    2012.01-2015.12国家自然科学基金面上项目多敏感场耦合多相流测量方法研究,批准号,第2负责人

[9].    2015.04-2016.03日本SMC株式会社,SMC气动产品测试与技术开发(工业用过滤器压损研究),子项目负责人

[10]. 天津大学北洋青年学者计划,复杂流动过程检测与成像,执行期:2017-01-012020-12-30

[11]. 天津大学北洋学者青年骨干教师计划复杂流动体系多传感器在线监测与可视化研究,执行期:2013-01-012014-12-31

 

代表性论著、学术著作:

学术论文:

[1].    Tan Chao, Dong Feng, Wu Mengmeng, Identification of Gas/Liquid Two-Phase Flow Regime through ERT-Based Measurement and Feature Extraction, Flow Measurement and Instrumentation, 2007, 18(5): 255-261. (SCI)

[2].    Tan Chao, Dong Feng, Modification to mass flow rate correlation in oil-water two-phase flow by a V-cone flow meter in consideration of oil-water viscosity ratio, Measurement Science and Technology, 2010, 21(4): 045403 (12pp). (SCI)

[3].    Tan Chao, Xu Yaoyuan and Dong Feng, Determining the boundary of inclusions with known conductivities using a Levenberg-Marquardt algorithm by electrical resistance tomography, Measurement Science and Technology, 2011, 22(10): 104005 (13pp). (SCI)

[4].    Tan Chao, Wu Hao, Wei Can and Dong Feng, Experimental and Numerical Design of A Long-Waist Cone Flow Meter, Sensors and Actuators A: Physical, 2013, 199: 9-17 (SCI )

[5].    Tan Chao, Wu Hao and Dong Feng, Mass Flow Rate Measurement of Oil-Water Two-Phase Flow by a Long-Waist Cone Meter, IEEE Transactions on Instrumentation and Measurement, 2013, 62(10): 2795-2804. (SCI)

[6].    Tan Chao, Wu Hao and Dong Feng, Horizontal oil-water two-phase flow measurement with information fusion of conductance ring sensor and cone meter, Flow Measurement and Instrumentation, 2013, 34: 83-90. (SCI)

[7].    Tan Chao, Dai Wei, Wu Hao and Dong Feng*, A Conductance Ring Coupled Cone Meter for Oil-Water Two-Phase Flow Measurement, IEEE Sensors Journal, 2014, 14(4): 1244-1252. (SCI)

[8].    Tan Chao, Dai Wei, Hoi Yeung, Dong Feng, A Kalman estimation based oil-water two-phase flow measurement with CRCC, International Journal of Multiphase Flow, 2015, 72: 306-317. (SCI)

[9].    Tan Chao, Zhao Jia and Dong Feng, Gas-Water Two-Phase Flow Characterization with Electrical Resistance Tomography and Multivariate Multiscale Entropy Analysis, ISA Transactions, 2015, 55: 241-249. (SCI)

[10]. Tan Chao, Ren Shangjie* and Dong Feng, Reconstructing the Phase Distribution within an Annular Channel by Electrical Resistance Tomography, Heat Transfer Engineering, 2015, 36(12): 1053-1064. (SCI)

[11]. Tan Chao, Li Pengfei, Dai Wei and Dong Feng*, Characterization of oil-water two-phase pipe flow with a combined conductivity/capacitance sensor and wavelet analysis, Chemical Engineering Science, 2015, 134: 153-168. (SCI)

[12]. Dong Xiaoxiao, Tan Chao*, Yuan Ye, Dong Feng, Oil-water two-phase flow velocity measurement with continuous wave ultrasound Doppler, Chemical Engineering Science, 2015, 135: 155-165. (SCI)

[13]. Wu Hao, Tan Chao*, Dong Xiaoxiao, Dong Feng, Design of a Conductance and Capacitance Combination Sensor for water holdup measurement in oil-water two-phase flow. Flow Measurement and Instrumentation, 2015, 46(Part B): 218-229. (SCI)

[14]. Dong Xiaoxiao, Tan Chao*, Yuan Ye, Dong Feng, Measuring Oil-water Two-phase flow velocity with continuous wave ultrasound Doppler sensor and drift-flux model, IEEE Transactions on Instrumentation and Measurement, 2016, 65(5): 1098-1107. (SCI)

[15]. Wu Hao, Tan Chao*, Dong Feng, An On-Line Adaptive Estimation Method for Water Holdup Measurement in Oil-water Two-phase Flow with Conductance/Capacitance Sensor, Measurement Science and Technology, 2016, 27(7): 074001. (SCI)

[16]. Tan Chao*, Yuan Ye, Dong Xiaoxiao, Dong Feng, Oil-Water Two-Phase Flow Measurement with Combined Ultrasonic Transducer and Electrical Sensors, Measurement Science and Technology, 2016, 27, Paper No: 125307 (11pp) (SCI)

[17]. Dong Xiaoxiao, Tan Chao*, Dong Feng, Gas-liquid two-phase flow velocity measurement with continuous wave ultrasonic Doppler and conductance sensor, IEEE Transactions on Instrumentation and Measurement, 2017, 66(11): 3064- 3076. (SCI)

[18]. Xiao Zhili, Tan Chao*, Dong Feng, Effect of inter-tissue inductive coupling on multi-frequency imaging of intracranial hemorrhage by MIT, Measurement Science and Technology, 2017, 28(8): 084001. (SCI)

[19]. Su Qian, Tan Chao*, Dong Feng, Measurement of Oil-Water Two-Phase Flow Phase Fraction with Ultrasound Attenuation, IEEE Sensors Journal, 2018, 18(3): 1150-1159. (SCI)

[20]. Liu Weiling, Tan Chao*, Dong Feng, Local Characteristic of Horizontal Air-Water Two-Phase Flow by Wire-Mesh Sensor, Transactions of the Institute of Measurement and Control, 2017, 40(3): 746-761 (SCI)

[21]. Tan Chao, Dong Xiaoxiao, Dong Feng*, Continuous Wave Ultrasonic Doppler Modeling for Oil-gas-water Three-phase Flow Velocity Measurement, IEEE Sensors Journal, 2018, 18(9): 3703-3713 (SCI)

[22]. Xiao Zhili, Tan Chao*, Dong Feng, Multi-frequency difference method for intracranial hemorrhage detection by magnetic induction tomography, Physiological Measurement, 2018, 39(5): 055006 (14pp) (SCI)

[23]. Shi Xuewei, Tan Chao*, Dong Xiaoxiao, Dong Feng, Structural Velocity Measurement of Gas-Liquid Slug Flow Based on EMD of Continuous Wave Ultrasonic Doppler, IEEE Transactions on Instrumentation and Measurement, 2018, 67(11): 2662-2675. (SCI).

[24]. Liu Weiling, Tan Chao*, Dong Xiaoxiao, Dong Feng, Yuichi Murai, Dispersed Oil-Water Two-phase Flow Measurement Based on Pulse-Wave Ultrasonic Doppler Coupled with Electrical Sensors, IEEE Transactions on Instrumentation and Measurement, 2018, Accepted (SCI)

[25]. Tan Chao*, Wu Yiran, Xiao Zhili, Dong Feng, Optimization of dual frequency-difference MIT sensor array based on sensitivity and resolution analysis, IEEE Access, 2018, 6(1): 34911-34920. (SCI)

[26]. Tan Chao*, Lv Shuhua, Feng Dong, Masahiro Takei, Image Reconstruction Based on Convolutional Neural Network for Electrical Resistance Tomography, IEEE Sensors Journal, 2019, Vol.19, No. 1, pp. 196-204. (SCI)

[27]. Tan Chao, Shen Ying, Smith Keith, Dong Feng, Escudero Javier, Gas-liquid Flow Pattern Analysis Based on Graph Connectivity and Graph-Variate Dynamic (GVD) Connectivity of ERT, IEEE Transactions on Instrumentation and Measurement, 2018, online. (SCI)

[28]. Shi Xuewei, Tan Chao*, Feng Dong, Yuichi Murai, Oil-Gas-Water Three-Phase Flow Characterization and Velocity Measurement Based on Time-frequency Decomposition, International Journal of Multiphase Flow, online, 2018 (SCI )

[29]. Feng Dong, Huan Gao, Weiling Liu, Chao Tan*, Horizontal Oil-Water Two-Phase Dispersed Flow Velocity Profile Study by Ultrasonic Doppler Method, Experimental and Thermal Fluid Science, 2018, accepted. (SCI)

[30]. Tan Chao, Li Xiao, Liu Hao, Dong, Feng, A Dual-Mode Ultrasonic Process Tomography System for Industrial Multiphase Flow Imaging, IEEE Transactions on Industrial Electronics, 2018, accepted. (SCI)

 

学术论著:

(1)      Tan Chao and Dong Feng, Applications of tomography in mineral transportation, Chapter 16 of “Industrial Tomography: Systems and Applications”, Woodhead Publishing Limited, 2015, April, ISBN 978-1-78242-118-4

(2)      Dong Feng, Cai Xiaoshu, Murai Yuchi, Tan Chao, The proceedings of The 7th International Symposium on Measurement Techniques for Multiphase Flows, Sep 17-19 2011, Tianjin, China. published as AIP – Conference Proceedings 1428, American Physics Institute, ISBN 978-0-7354-1011-4, (第七届多相流测试技术会议论文集,美国物理学会出版,ISTP检索)

 

专利:

(1)      基于多截面阻抗式双差压长腰内锥的多相流测量方法,发明专利,专利号:ZL 201110047911.6

(2)      基于单截面阻抗式长腰内锥传感器的多相流测量方法,发明专利,专利号:ZL 201110048192.X

(3)      基于双截面阻抗式长腰内锥传感器的多相流测量方法,发明专利,专利号:ZL 201110048160.X

(4)      基于多截面阻抗式长腰内锥传感器及相关测速的多相流测量方法,发明专利,专利号:ZL 201110048191.5

(5)      用于管道内流体过程参数检测的内外复合式阵列传感器,发明专利:专利号:ZL 201110319799.7

(6)      基于超声多普勒与电学多传感器的多相流可视化测试方法,发明专利,专利号:ZL201410328267.3

(7)      基于电学与超声敏感原理的多相流可视化测试方法,发明专利,专利号:ZL 201410328237.2

(8)      一种基于异步通信模式的光纤数据传输方法,发明专利,专利号:ZL 201410209577.3

(9)      基于超声与电学多传感器互相关测速的多相流测试方法,发明专利,专利号:ZL 201410328238.7

(10)   基于电磁涡流检测的两相流相含率测量方法,发明专利,专利号:ZL 201510188815.1

(11)   两相流分相流速声电双模态测量方法,发明专利,专利号:ZL 201510263691.9

(12)   两相流速声电双模态测量方法,发明专利,专利号:ZL 201510493431.0

(13)   基于超声衰减机理模型的油水两相流相含率测量方法,发明专利,专利号:ZL 201610519665.2

(14)   两相流含水率的自适应估计方法,发明专利,专利号:ZL 201610300174.9

(15)   两相流相含率超声回波测量方法,发明专利,专利申请号:ZL 201610577470.3

(16)   油水两相流含水率自适应估计方法,发明专利,专利申请号:ZL 201610705211.4

(17)   用于脑出血检测的多频电磁层析成像方法,发明专利,专利申请号:201611031436.2

(18)   连续波超声多普勒谱修正的两相流流速测量方法,发明专利,专利申请号:201611097460.6

(19)   两相流含水率自适应串联估计方法,发明专利,专利申请号:201710029359.5

(20)   抑制组织间互感耦合作用的多频电磁层析成像方法,发明专利,专利申请号:201710090241.3

(21)   气液两相泡状流流速声电双模态测量方法,发明专利,专利申请号:201710109307.9

(22)   气液两相弹状流和塞状流流速声电双模态测量方法,发明专利,专利申请号:201710110230.7

(23)   油气水三相塞状分散流流速测量方法,发明专利,专利申请号:201710166489.3

(24)   超声多普勒多相流流速分布检测设备,发明专利,专利申请号:201710191680.3

(25)   声电双模态融合两相流流动参数测量方法,发明专利,专利申请号:201701293968.1

(26)   应用匹配追踪的层析成像重建方法,发明专利,专利申请号:201710333914.3

(27)   气液弹状流结构流速声电双模态测量方法, 发明专利,专利申请号:201710638226.8

(28)   基于超声脉冲多普勒与电学多传感器的两相流流速测量方法,发明专利,专利申请号:201710719602.6

(29)   基于数据融合的两相流流型识别方法,发明专利,专利申请号:201711239764.6

(30)   超声平面波扫描式多相流可视化测量装置,发明专利,专利申请号:201810054220.0

(31)   两相流分布参数双模式超声可视化测量装置,发明专利,专利申请号:201810089684.5

 

主要讲授课程:

(1)      通信与信息技术(本科生)

(2)      计算机控制理论与应用(本科生)

(3)      模式识别基础(本科生)

(4)      检测技术与参数估计(硕士生)

(5)      国际学术交流方法与技巧(硕士生)

 

主要学术成就、奖励及荣誉:

(1)      2009:天津市自然科学三等奖;

(2)      2009:中国工程热物理学会多相流2009年学术年会青年学者优秀论文陈学俊奖

(3)      2009“IEEE国际成像系统与技术会议(IEEE- IST最佳论文奖;

(4)      2011:中国工程热物理学会多相流年会特邀报告。

(5)      2011:天津大学优秀博士学位论文

(6)      2012:三菱电机自动化大赛指导教师一等奖。

(7)      2012:入选天津大学北洋学者·青年骨干教师计划

(8)      2013:天津市优秀博士学位论文奖

(9)      2016:入选天津大学北洋青年学者计划

(10)   2016:《仪器仪表学报》2015年优秀论文奖。

(11)   2018:第22届世界测量大会IMEKO World Congress (3年一届)InstMC Poster Prize-Highly Commended

(12)   2019:日本学术振兴会(JSPSinvitational fellowship

 

其他(社会兼职等):

(1)      IEEE仪器与检测学会(I&M society)汇刊 <IEEE Transactions on Instrumentation and Measurement>编委(Associate Editor),影响因子2.794, JCR Q1

(2)      IEEE传感器委员会(Sensors Council)旗舰刊<IEEE Sensors Journal>编委(Associate Editor)、专刊Sensors for Process Imaging客座主编(Lead Guest Editor) ,影响因子2.617, JCR Q1

(3)      <IEEE Access>编委(Associate Editor),影响因子3.557, JCR Q1

(4)      <Transactions of the Institute of Measurement and Control>编委(Associate Editor),影响因子1.579, JCR Q3

(5)      中国计量测试学会多相流测试专业委员会委员

(6)      中国仪器仪表学会产品信息工作委员会委员

(7)      中国自动化学会青年工作委员会委员

(8)      天津市自动化学会副秘书长

(9)      天津市仪器仪表学会理事

(10)   国际工业过程层析成像学会理事(ISIPT Consultative Scientific Panel

(11)   IEEE高级会员(IEEE Senior Member

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