姓名:赵荣泳
联系电话:69588911-8637
电子邮箱:zhaorongyong@tongji.edu.cn
通讯地址:上海市嘉定区曹安公路4800号智信馆CIMS研究中心
研究方向:复杂系统建模与优化,公共安全系统工程
个人简介

一、个人简介

赵荣泳  博士,副教授,同济大学电子信息与工程学院CIMS研究中心。1999年获得济南大学机械设计与制造专业学士学位,山东省1999年优秀毕业生;2002年获得兰州理工大学机械制造自动化专业硕士学位,2005年获得同济大学控制理论与控制工程专业博士学位,上海市2005年优秀毕业生。国际电气和电子工程师协会IEEE Member,中国人工智能学会会员,上海市微电脑应用学会会员;主要研究方向为:公共安全系统工程、复杂系统建模与优化、智能制造、Rough Set理论;主持国家自然基金项目1项,上海市自然基金项目1项,上海市重大研究计划项目1项,参与国家自然基金重大计划项目1项,重点项目1项,上海市科技创新项目12项,上海市信息化项目6项。获得教育部科技进步奖二等奖1项,上海市科技进步奖三等奖1项。发表学术论文及专著70余篇。发明专利4项,软件著作权16项,SCI/EI收录24余篇。

Rongyong Zhao , Associate Professor, received the B.E. degree in mechanical science from Jinan University, China, the M.E. degree in mechanical automation from Lanzhou University of Technology, China, and the Ph.D. degree in control science and engineering from Tongji University, China in 1999, 2002,and 2005 respectively. He was honored with the Outstanding Graduate Award of Shan Dong Province, China, and the Outstanding Graduate Award of Shang Hai, China in 1999 and 2005 respectively.

He joined CIMS Research Center as an Assistant Professor in Department of Electronic Information and Engineering, Tongji University in 2005. He also was a Deputy Chief Engineer Shanghai Informationization and Industrialization fusion research center in 2009. He was a visting scholar and joined research for Europ Renewable Program(2007-2008) in Automation and Control of Aalborg University, Demmark and in the Technical University of Denmark ,Denmark, in duration of Oct. 2007 to Aug.2008, and Sep. to Oct. 2008 Respectively.

His research interest includes renewable energy, artificial intelligence, fatigue reduction.

He is a member of the Academic Society of Shanghai Microcomputer Applications, China Intelligent Academic Society, and the Institute of Electrical and Electronics Engineers (IEEE).

He published more than 70 academic papers.

He was supported by the Danish Ministry of Science, Technology and Innovation CIRIUS (Grant No. 2007-7232-12)of Denmark, the Scientific Research Foundation for Returned Overseas Chinese Scholars, State Education Ministry (2010),the Science and Technology Commission of Shanghai Key Basic Research Project (Grant No. 10JC1415200), the 2010 Shanghai manufacturing information for special projects (Grant No. 10DZ1122402), the Shanghai Leading Academic Discipline Project (Grant No. B004) and the National Natural Science Foundation Project of China (Grant No. 50905129).

研究工作经历

•  2005年—至今,同济大学,电子与信息工程学院,讲师;

•  2007年—2008年,丹麦Aalborg University(AAU)(10个月),Technical University of Denmark(DTU)(2个月)教育部访问学者,研究复杂系统稳定性;

 

 

二、科研项目

2.1主持项目:

[1]     2017年产学研合作项目“首帆动力云服务系统”(20170171),首帆动力科技股份有限公司;

[2]     2015年上海市教委,上海高校外国留学生英语授课示范性课程建设项目(2015-137)《电子测量》,2015.7-2017.6;

[3]     2014年产学研合作项目“DHERSS分布式混合能源远程服务系统”(142969),首帆动力科技股份有限公司;

[4]     2013年国家自然科学基金面上项目“基于自组织临界性沙堆模型的人群疏散稳定性分析(71373178)”,2014年1月-2017年12月;

[5]     2013年上海市自然基金面上项目“考虑恐慌传播的人群应急疏散稳定性研究(13ZR1444700)”,2013年7月-2016年6月;

[6]     2010年上海市科技攻关项目:高能耗工业生产过程能源综合优化关键技术研究(10DZ1122402),2010年7月到2012年6月;

2.2参与项目:

[1]     2013年国家自然科学基金重大研究计划“区域大规模人群疏散仿真推演与决策支持系统(91324016)”,2014年1月-2016年12月;

[2]     2012年国家863计划项目名称:“多源多维城市交通状态感知与交互处理(2012AA112307)”子课题“大城市分布式多源多维交通状态信息云计算技术”;

[3]     2012年上海市科学技术委员会项目“千兆级超超临界锅炉数字样机关键技术研究”(12DZ1124902);

[4]     2011年国家自然科学基金重大研究计划“非常规突发事件处置模式及应急技术集成原理与方法(91024023)” 2014.01 - 2014.12.

[5]     2012年国家自然科学基金面上项目“基于群智能的突发事件区域人群疏散模型研究(71273188)”,2013年1月-2016年12月;

[6]     2010年国家自然基金青年基金项目“面向问题模式挖掘的复杂芯片制造过程近全局优化动态调度方法研究(50905129)”2010.1-2012.12

[7]     2007年国家自然基金面上项目“可中断批处理多服务器系统动态调度的研究(60674076)” 2007.01 - 2009.12

[8]     2012年中国商用飞机有限责任公司项目“民用飞机生产安全与能源综合管理系统研究与开发”;

[9]     2012年上海市经济和信息化委员会项目“重型装备企业生产流程能源优化关键技术研发及应用”;

[10]   2010年上海市科学技术委员会项目名称“流程工业生产能耗过程耦合模型与优化调度方法研究(10JC1415200)”;

[11]   2010年上海市经济和信息化委员会项目“高压/超高压系列变压器设计制造一体化能源综合优化系统研究与应用”;

[12]   2010年国家自然科学基金重大研究计划集成项目“突发事件应急准备与应急预案体系研究(91024131)”子项目“非常规突发事件公众保护研究”,2011年1月-2014年12月;

[13]   2008年上海市科委社会发展专项子项目“虹桥综合交通枢纽突发事件人员应急疏散预案仿真技术研究”(编号:08201201905 ),2008年1月-2009年12月;

[14]   2006年国家十一五科技支撑计划项目“上海世博智能交通技术综合集成系统” (2006BAG01A02)子项目“世博交通紧急事件处理预案仿真分析与评估系统研究”, 2006年1月-2008年12月;

[15]   2002年中德国家级政府合作项目“上海大众远程服务与远程工程支持系统研究与建立”二期(2002.9-2003.8);

[16]   2002年中德国家级政府合作项目“数字化工厂:面向复杂制造系统的系统规划设计和生产过程组织的建模方法(NO.20002DFG00027)”(2003-2005);

[17]   2002年863计划课题 “关键生产装置和生产设备故障监测、诊断与维护技术(2002AA412410)”;

[18]   2002年江苏省科技攻关项目 “基于Internet网络的数控设备远程监控与诊断系统(BE2002014)”;

 

三、科研成果

3.1获奖情况

综合以上理论研究和项目应用工作,目前所取得的研究成果有:

1)       “数字化多媒体远程服务/远程工程支持系统”:

●   2000中国高校科技进步二等奖;

●   第十六届上海市优秀发明选拔赛一等奖,2002年10月;

2)       “网络化服务与工程支持系统集成平台及其应用”:

●  2003年教育部提名国家科技进步奖一等奖;

●  2004国家科技进步奖二等奖(2005年颁发);

3)   复杂制造系统的规划设计和生产过程组织中的数字化工厂技术与应用.获获奖类型:上海市科技进步奖,获奖等级:三等,第7获奖人,上海市科学技术委员会,2006年11月24日,证书号:20064404-3-R07

4)       复杂生产系统的数字化建模、仿真与智能优化技术及应用.获奖类型:教育部科技进步奖,获奖等级:二等奖,第13获奖人,中国教育部,2008年1月25日,证书号:2007-218

  

3.2英文论文

[1]Rongyong Zhao, Cuiling Li, Xiangke Tian. A Novel Industrial Multimedia: Rough Set based Fault Diagnosis System used in CNC Grinding Machine .MULTIMEDIA TOOLS AND APPLICATIONS. 2017(76): 19913–19926.DOI:10.1007/s11042-016-3878-0. ISSN: 1380-7501,eISSN: 1573-7721 (SCI index, WOS: 000409180500035).

[2]Qianshan Hu, Rongyong Zhao[Corresponding Author], Cuiling Li,Dong Wang, Xiangke Tian, Qin Zhang. Stability analysis for crowd evacuation based on self-organized criticality theory. Proceedings on Service System Engineering Conference & Symposium on Analysis and Risk 2017, July 7th-9th,2017,Shanhai,China.ISBN 978-1-926642-17-8.78-83.

[3]Dong Wang,Rongyong Zhao[Corresponding Author],Cuiling Li,Qianshan Hu, Xiangke Tian, Qin Zhang.Simulation and analysis of T-shaped road Junction stampede using macroscopic model. Proceedings on Service System Engineering Conference & Symposium on Analysis and Risk 2017, July 7th-9th,2017,Shanhai,China.ISBN 978-1-926642-17-8.71-77.

[4]Xiangke Tian,Jian Wang,Rongyong Zhao,Qianshan Hu,Dong Wang,Qin Zhang.The research on energy model of green manufacturing system in ecological industrial area based on Energy Hub-Agent. Proceedings on Service System Engineering Conference & Symposium on Analysis and Risk 2017, July 7th-9th,2017,Shanhai,China.ISBN 978-1-926642-17-8.51-57.

[5]Rongyong Zhao, Cuiling Li, Xiangke Tian, Dong Wang. Rough Set based Decision Support Model and its Application in Teaching Estimation System for Bachelor Course. International Conference on Material Science and Engineering Technology Phuket, Thailand ,October 14-16, 2016.

[6]Xiangke,Tian,Rongyong Zhao(Corresponding Author),Energy network flow model and optimization based on energy hub for big harbor industrial park. Journal of Coastal Research.2015. SI.73,298-303(SCI:WOS:000351538400053)

[7]Zhao, RY; Li, CL; Ling, WQ; Ma, YL; Sun, Y. Crowd Evacuation Knowledge Management Based on Rough Set Theory. INTERNATIONAL CONFERENCE ON ADVANCES IN MANAGEMENT ENGINEERING AND INFORMATION TECHNOLOGY.JUN 28-29, 2015    Bangkok, THAILAND.2015. 953-958. (WOS:000361173400120)  

[8]Zhao, RY; Li, CL; Ling, WQ; Ma, YL.A Rough Set-based Knowledge Discovery Model for Crowd Evacuation in a Fire Emergency. International Conference on Advanced Management Science and Information Engineering (AMSIE)      SEP 20-21, 2015.Hong Kong, PEOPLES R CHINA 37-42 (WOS:000361829200006)

[9]Zhao, RY; Li, CL; Ling, WQ; Ma, YL. Evolution Mechanism Discovery for Crowd Evacuation Based on Rough Set Theory. International Conference on Advances in Management Engineering and Information Technology (AMEIT),JUN 28-29, 2015.THAILAND.959-964(SCI:WOS:000361173400121)

[10]Rongyong Zhao, Cuiling Li.A Novel Teaching Strategy for Professional English Course for Automation Bachelor Program in Current Universities. International Conference on Social Science, Education Management and Sports Education(SSEMSE 2015).655-658.2015.(EI Compendex).

[11]Zhao, Rongyong; Wang, Jian; Ling, Weiqing.Crowd evacuation stability based on Self-organized Criticality Theory. Applied Mechanics and Materials.2014.Vol.2403.501-504. (SCI:WOS:000339031501197)

[12]RongYong Zhao, Cuiling Li , Wei QingLing, YunLongMa ,A Rough Set based Knowledge Discovery Model for Crowd Evacuation a Fire Emergency, WIT Transactions on Information and Communication Technologies, 2014,47:92-96 (EI Compendex).

[13]Rongyong ZHAO, Cuiling LI. Self-organized Criticality Theory and its Potential Application in High Density Pedestrian Evacuation Simulation in Public Buildings.2014. Applied Mechanics and Materials Vol. 501-504, 2432-2435(EI Compendex).

[14]RongYong Zhao, CuilingLi , Wei QingLing, YunLongMa .A Rough Set based Knowledge Discovery Model for Crowd Evacuation in a Fire Emergency. WIT Transactions on Information and Communication Technologies(EI Compendex).

[15]Rongyong Zhao, Wenzhong Shen, Torben Knudsen, Thomas Bak. Fatigue distribution optimization for offshore wind farms using intelligent agent control. Wind Energy,we.1518 Wind Energy. Volume 15, Issue 7, pages 927–944, October 2012(SCI: WOS:000309749600004,EI: 20124215579685,SCI index factor 1.768)

[16]Pu, Qiong; Wang, Jian; Zhao, Rongyong. Strong Authentication Scheme for Telecare Medicine Information Systems .JOURNAL OF MEDICAL SYSTEMS Volume 36,Issue 4, pages 2609-2619,AUG 2012. (SCI: WOS:000306549000053,EI: 20124215579685,SCI index factor 1.783), ISSN: 1573-689X,refered: 8

[17]Zhao, Rongyong;Wang, Jian;Ling, Weiqing.A coupling model for production and energy consumption used in continuous production industry. Advanced Materials Research, v 347-353, p 3131-3134, 2012, Renewable and Sustainable Energy.Database: EI Compendex

[18]Zhao, Rongyong; Wang, Jian;Ling; Weiqing .A novel solution for energy-saving potential analysis in continuous production industry. Advanced Materials Research, v 347-353, p 3147-3150, 2012.

[19]Zhao, Rongyong; Wang, Jian;Ling, Weiqing.A technical solution of service cloud building for energy-saving and emission-reduction in manufacture industry. Advanced Materials Research, v 361-363, p 1043-1046, 2012.

[20]Zhao, Rongyong; JianwangLing, Weiqing.Research on stability analysis methods for intelligent pedestrian evacuation in unconventional emergency. Communications in Computer and Information Science, v 228 CCIS, PART 5, p 452-458, 2011. (WOS:000308567400058)

[21]Zhao, Rongyong; Su, YongqingKnudsen, TorbenBak, ThomasShen, Wen Zhong.Multi-Agent model for fatigue control in large offshore wind farm.Proceedings - 2008 International Conference on Computational Intelligence and Security, CIS 2008, v 1, p 71-75, 2008, Proceedings.Database: EI Compendex

[22]Zhao, Rongyong; Zhang, HaoLu, JiangfengLi, CuilingZhang, Hui.A new machine learning method based on PCA and SVM.2006 International Conference on Computational Intelligence and Security, ICCIAS 2006, v 1, p 187-190, 2007, 2006 International Conference on Computational Intelligence and Security, ICCIAS 2006.Database: EI Compendex

[23]Yongqing Su; Rongyong Zhao;Zhe Chen.Power dispatch strategy for wind farm based on virtual market.2009 Asia-Pacific Power and Energy Engineering Conference, p 5 pp., 2009.Database: EI Compendex

[24]Li, Culling; Zhao, RongyongXiang, YangXu, Shanlin.Data mining approach for ship virtual assembly based on rough set theory.Proceedings - 2008 International Conference on Computational Intelligence and Security, CIS 2008, v 2, p 128-132, 2008, Proceedings - 2008 International Conference on Computational Intelligence and Security, CIS 2008.Database: EI Compendex

[25]Cuiling Li; Rongyong ZhaoYang XiangShanlin Xu.Data mining approach for ship virtual assembly based on rough set theory.2008 International Conference on Computational Intelligence and Security, p 128-32, 2008. EI Compendex

[26]Li, Cui-Ling ; Zhao, Rong-Yong.A rough set based knowledge discovery model and its application in virtual assembly. Advanced Materials Research, v 314-316, p 2132-2139, 2011, Advanced Manufacturing Technology.Database: EI Compendex

[27]Li, Cuiling; Zhang, HaoWang, JianZhao, Rongyong. A new pattern recognition model based on heuristic SOM network and rough set theory. 2006 IEEE International Conference on Vehicular Electronics and Safety, ICVES, p 45-48, 2006.Database: EI Compendex

[28]Cuiling, Li; Hao, ZhangRongyong, Zhao.The precision manufacturing for the tooling of automobile body part based on virtual assembly. IEEE ICIT 2007 - 2007 IEEE International Conference on Integration Technology, p 297-300, 2007.Database: EI Compendex

 


 

3.3中文论文

From 中国知网(www.cnki.net)

[1]孙耀,赵荣泳. 大型民用飞机安全生产综合管理信息化平台的设计[J]. 机电产品开发与创新,2014,04:1-3+25.

[2]邓发庆,赵荣泳. 民用飞机生产过程环境保护管理系统的设计[J]. 机电产品开发与创新,2014,05:7-9.

[3]马翔,赵荣泳,曾国毅. 民用飞机制造过程安全评价中危险源和有害因素的辨识[J]. 机电产品开发与创新,2014,05:1-3.

[4]祖世威,凌卫青,王坚,赵荣泳. 安全生产检查管理系统的设计与实现[J]. 机电产品开发与创新,2014,01:20-23.

[5]王双燕,凌卫青,王坚,赵荣泳. 基于一卡通的劳防用品管理系统的设计与实现[J]. 机电产品开发与创新,2014,01:59-61.

[6]耿锋,戴毅茹,王坚,赵荣泳. 基于Web的民用飞机生产能源管理系统的设计与实现[J]. 机电产品开发与创新,2013,06:1-3.

[7]齐晗,戴毅茹,王坚,赵荣泳. 安全生产应急救援综合管理系统的设计与实现[J]. 机电产品开发与创新,2013,06:23-25.

[8]马翔,曾国毅,赵荣泳. 民用飞机制造企业特殊工种管理系统设计[J]. 机电产品开发与创新,2013,05:17-19.

[9]花玮,戴毅茹,赵荣泳. 基于C#和SQL的特殊工种人员信息管理系统的设计与实现[J]. 机电产品开发与创新,2013,01:39-41.

[10]张庆龙,戴毅茹,赵荣泳. 基于C#和Arc Engine的毒气扩散仿真系统的设计与实现[J]. 机电产品开发与创新,2013,01:90-92.

[11]石章玉,王坚,赵荣泳. 基于工作流的安全隐患管理系统设计与实现[J]. 机电产品开发与创新,2012,06:73-75.

[12]徐俊,赵荣泳. 民用飞机综合实验安全生产管理系统的设计[J]. 机电产品开发与创新,2012,05:10-12.

[13]王昕,王坚,赵荣泳,苏强. 油耗监控系统中的多通道数据采集电路设计[J]. 信息技术,2012,04:59-61+64.

[14]霍振兴,戴毅茹,赵荣泳. 基于PTR2000的汽车油耗实时监测系统的无线通信设计[J]. 机电产品开发与创新,2011,01:142-144.

[15]王昕,王坚,赵荣泳,凌卫青. 第三方物流易燃液体运输车辆的选择策略模型[J]. 信息技术,2010,12:187-190.

[16]赵荣泳,李翠玲,高晓康,王昭云. 电子镇流器故障诊断的变精度粗糙集模型[J]. 南京大学学报(自然科学版),2010,05:494-500.

[17]高晓康,赵荣泳,李翠玲. 基于混合属性全距离的粗糙集论域空间纵向降维模型[J]. 应用基础与工程科学学报,2010,03:530-538.

[18]王鹏飞,王坚,赵荣泳. 物流企业汽车油耗动态分析系统软件的关键技术[J]. 电脑知识与技术,2009,33:9149-9150.

[19]张爽,王坚,赵荣泳. 汽车油耗实时监控系统的关键技术[J]. 电脑知识与技术,2009,32:9077-9079.

[20]吴会莲,张浩,赵荣泳,王胜华. 基于MiniGUI的图像即时处理终端实现的关键技术[J]. 计算机工程与科学,2009,04:29-31+39.

[21]高晓康,赵荣泳,齐从谦,施仲伟. 心电信号预测冠心病的粗糙集方法[J]. 生物医学工程学杂志,2008,05:1025-1028.

[22]丁红海,王建平,赵荣泳. 图书馆自动化门禁系统的应用现状与发展趋势[J]. 机电一体化,2008,08:52-55.

[23]吴会莲,张浩,赵荣泳,王胜华. 基于MiniGUI的图像即时处理终端实现的关键技术[J]. 微型电脑应用,2008,04:49-51+48+1.

[24]贝卓运,张浩,赵荣泳,王胜华. 基于ARM系统的图像检索算法与实现[J]. 机电一体化,2007,06:30-34.

[25]李翠玲,张浩,赵荣泳,樊留群,王平. 轿车车身冲压线Tooling的自动化虚拟装配模型[J]. 计算机集成制造系统,2007,11:2110-2114.

[26]陆剑峰,张浩,马玉敏,赵荣泳. 基于业务流程管理的企业应用集成框架及其实现[J]. 计算机集成制造系统,2007,07:1344-1349+1353.

[27]程曙,张浩,马玉敏,赵荣泳. 面向自动化装配的一类智能混杂系统[J]. 计算机工程,2007,11:31-33.

[28]李翠玲,张浩,赵荣泳,樊留群,王平. 汽车冲压线端拾器自动化虚拟装配的关键技术[J]. 制造业自动化,2007,05:14-16+51.

[29]李翠玲,张浩,赵荣泳,樊留群,王平. 轿车车身零件冲压线Tooling的自动化虚拟装配[J]. 机电一体化,2007,03:27-29.

[30]樊留群,马玉敏,赵荣泳,罗嵩. 端拾器的自动化设计[J]. 机械设计,2007,04:48-50.

[31]李翠玲,张浩,赵荣泳,陆剑峰,蔡英. 粗糙集连续属性离散化的SOM网络方法(英文)[J]. 广西师范大学学报(自然科学版),2006,04:46-49.

[32]高晓康,齐从谦,赵荣泳,李翠玲. 粗糙集理论在旋转机械实时故障诊断中的应用[J]. 制造业自动化,2006,12:23-26.

[33]赵荣泳,张浩,李翠玲,樊留群,王骏. 粗糙集连续属性离散化的MDV方法[J]. 计算机工程,2006,03:52-54.

[34]赵荣泳,张浩,李翠玲,陆剑锋,王骏. 粗糙集理论中分辨函数的析取范式生成算法[J]. 计算机工程,2006,02:183-185.

[35]李翠玲,张浩,赵荣泳,樊留群,王骏. 粗糙集理论及其在机电行业中的应用潜力分析[J]. 机电一体化,2005,06:24-26.

[36]赵荣泳,张浩,李翠玲,樊留群,王骏. Rough Set规则自动生成的关键算法改进[J]. 计算机工程与应用,2005,13:32-35.

[37]赵荣泳,张浩,李翠玲,樊留群,王骏. 粗糙集连续属性离散化模型研究与应用要点分析[J]. 计算机工程与应用,2005,08:40-42+91.

[38]赵荣泳,张浩,张辉,樊留群,陆剑峰. 一种新的机器学习方法——PSVM应用于数控磨床智能诊断的研究[J]. 制造业自动化,2005,01:42-46.

[39]赵荣泳,张浩,樊留群,李翠玲,蔡英. 数控磨床远程故障诊断专家系统分析与关键技术研究[J]. 机电一体化,2005,01:73-77.

[40]闫伟,张浩,陆剑峰,赵荣泳,张辉. 直喷式柴油机燃烧系统的均匀试验设计研究[J]. 机械工程学报,2005,01:212-215.

[41]赵荣泳,张浩,樊留群,王骏,翁松伟,石庆宗. 数字化工厂与虚拟制造的关系研究[J]. 计算机集成制造系统,2004,S1:46-50+55.

[42]车增强,李丙才,杨青年,颉振群,傅应霞,赵荣泳. 粗糙集理论简介及其在电站行业中的应用潜力分析[J]. 移动电源与车辆,2004,04:7-9+21.

[43]高洁,张浩,赵荣泳,樊留群. 数字化工厂软件系统的设计与关键技术研究[J]. 制造业自动化,2004,09:9-12.

[44]李宏宇,樊留群,赵荣泳,陈德竑,冯一东,蔡英. 基于ARM的嵌入式系统在数控设备故障诊断中的应用[J]. 制造业自动化,2004,08:33-36+78.

[45]赵荣泳,张浩,樊留群,李翠玲,陈德竑,蔡英. ARM嵌入式系统在数控磨床故障诊断中的应用研究[J]. 机电一体化,2004,03:87-90.

[46]赵荣泳,张浩,李连胜,陆剑峰. 模糊控制在自动化发电机组故障诊断中的应用[J]. 机电一体化,2003,05:25-27.

[47]闫伟,张浩,路剑峰,赵荣泳. 小型直喷柴油机循环变动及影响因素分析[J]. 车用发动机,2003,03:15-17.

[48]刘宇,赵荣泳. 边界元法在柴油发电机组振动检测中的应用与研究[J]. 移动电源与车辆,2003,02:15-18+27.

[49]李丙才,赵荣泳,杨青年,崔蕾. 对国外一种大范围、宽滞回带电压监控器的性能分析和改进[J]. 甘肃工业大学学报,2002,02:81-84.

[50]张建明,崔蕾,李连胜,刘晓霞,赵荣泳. 内燃机电站专业控制器系统与PLC控制器系统的性能比较和经济性分析[J]. 移动电源与车辆,2002,01:40-44.

[51]赵荣泳,李连胜,刘晓霞. AMG3发电机组控制器通信网络的构建[J]. 移动电源与车辆,2001,04:24-27.

 

 

 

 

3.4知识产权

3.4.1 发明专利

[1]  一种基于自组织沙堆模型的人群疏散仿真方法.赵荣泳,凌卫青,马云龙.李翠玲,田相克,汪栋.申请号或发明号:201610394379.8 2016年6月7日.发文序号:2016060701293120;

[2]  基于运动学小球模型的灾害条件下人群恐慌传播建模方法. 赵荣泳,李翠玲,胡钱珊,田相克,汪栋.申请号或发明号:201610578489.X 2016年7月22日.发文序号:2016072200427710

[3]  一种灾害条件下人群踩踏行为演化的知识发现方法. 赵荣泳,李翠玲,胡钱珊,田相克,汪栋.申请号或发明号:201610815386.0 2016年9月12日.发文序号:2016091200620250

[4]  端拾器的自动优化设计方法(CN1987868).樊留群,马玉敏,赵荣泳,2007年6月;

 

3.4.2 软件著作权

[1]  “基于Adriod4.0移动端机组监控软件V1.0”软著登字第2001609号,2017年8月,国家版权局.

[2]  “基于Andriod4.0的机组服务移动办公软件V1.0”,软著登字第2001600号, 2017年8月,国家版权局.

[3]  “基于iOS8.0的机组服务移动办公软件V1.0”,软著登字第2001218号, 2017年8月,国家版权局.

[4]  “基于iOS8.0的移动端机组监控软件V1.0”,软著登字第2001592号, 2017年8月,国家版权局.

[5]  “突发事件区域人群疏散场景建模系统V1.0”,软著登字第0470553号,2013年1月,国家版权局.

[6]  “突发事件区域人群疏散仿真推演系统V1.0” ,软著登字第0470556号,2013年1月,国家版权局.

[7]  “城市交通枢纽人员应急疏散仿真系统(SEP) V1.0”,软著登字第0181485号,2009年9月,国家版权局.

[8]  “城市交通枢纽人员应急疏散三维仿真系统(3DSEP) V1.0”,软著登字第0181484号,2009年9月,国家版权局.

[9]  自动化高压储氢过程测控系统 (软著登字第0356923号),2011年12月,国家版权局.

[10]汽车冲压线端拾器辅助设计系统 (软著登字第0356920号),2011年12月,国家版权局.

[11]   汽车数字化工厂中的冲压线端拾器项目管理系统 (软著登字第0357138号),2011年12月,国家版权局.

[12]   汽车冲压线端拾器虚拟运动检验系统 (软著登字第0356895号),2011年12月,国家版权局.

[13]   企业安全生产视频监控软件-软著登字第1300134号,2016年5月,国家版权局.

[14]   企业安全生产培训软件-软著登字第1333699号,2016年6月,国家版权局.

[15]   企业安全生产知识管理软件-软著登字第1333723号,2016年6月,国家版权局.

[16]   企业安全生产智能化应急预案软件-软著登字第1328289号,2016年6月,国家版权局.

教学与教学成果

课程和课件下载(Lecture Sildes of Professor Rongyong Zhao Download )

Electronic Measurements

  1. Brief description of the subjects

This course introduces fundamentals of the modern measurement science and uncertainty theory; basic principles of the electrical instruments and their correct management; measurement methods of the main electrical quantities; modern measurement systems based on programmable instrumentation and PC-based data acquisition; prerequisites electronic devices and components, electronic systems analysis.

Program

  1. Fundamental of measurement theory
  2. SI International System and measurement standards
  3. Measurement uncertainty and uncertainty sources
  4. Instruments and measurement methods of currents and voltages
  5. Analogue Oscilloscope
  6. Digital voltmeters
  7. Digital oscilloscope
  8. Signal generators and synthesizers
  9. Instruments for frequency and time interval measurements
  10. Programmable instrumentation and IEEE 488 standard interface
  11. PC-based instrumentation and software packages for data acquisition.
  1. Synthesis of the subjects

Analog Circuits, Digital Systems, Advanced Mathematics/Engineering Mathematics

Electronic Measurements Slides- chapter 1

Electronic Measurements Slides- chapter 2-1

Electronic Measurements Slides- chapter 2-2

Electronic Measurements Slides- chapter 3

Electronic Measurements Slides- chapter 4

Electronic Systems

This course provides a structured view of electronic systems and their parts with a top-down approach. A complex system is decomposed in modules and their interfaces. Students will learn how electronics can add functionality and value to mechanical or other systems. Contents include the principles of analog amplification, feedback techniques, operation of logic circuits, signal processing with digital techniques, and the basics of power electronics. The course analyzes a complex electronic system and decomposes it into modules, described in terms of functions and interfaces.

The prerequisites requested include Circuit Theory, electro-technical basic circuits calculus, Boolean algebra. English is the major classroom language; the text book and all lecture materials are in English.

Lessons are grouped according to the following theme list:

•      Course structure and organization, review of circuit theory.

•      Information processing systems, Electronic Sensors.

•      Operational amplifiers models, parameters, and feedback circuits.

•      Electronic devices, power electronics, ON/OFF actuator control, power supply.

•      Combinatorial and sequential digital circuits, logic elements.

•      System architectures, digital processing, analog/digital conversion.

The course includes some numerical practices dealing with the application of the theoretical concepts presented in lectures.

Electronic Systems Slides

Electronic Devices

This course is devoted to the description of basic semiconductor electrical properties and their application to the analysis of semiconductor-based electronic devices. After an introduction to semiconductors, a physically consistent theory is developed to define the basic tools necessary to understand the operation of semiconductor devices, both in terms of the device energy band diagram and of a set of equations describing the charged carrier transport properties in the material. These tools are then exploited to understand the operation of the basic devices for electronic applications: metal-semiconductor and pn junctions, bipolar transistors and MOS transistors. For these devices, besides the understanding of their physical operation, circuit models will also be described.

Course program

Week 1: basics of semiconductor technology and operation. Electrical properties.

Week 2: charge transport in semiconductors, mathematical model for current conduction in semiconductors.

Week 3: the metal-semiconductor junction: ohmic and rectifying behaviour. Device operation and circuit model.

Week 4: the pn-junction. Device operation and circuit model.

Week 5: the bipolar transistor. Device operation and circuit model.

Week 6: the MOS structure. Device operation.

Week 7: the MOS field-effect transistor. Device operation and circuit model.

Electronic Device Slides

Basic Mechanics

 

School/college: Sino-Italian

No. of Course: 100322                Course Teacher:Zhao Rongyong

Language:English                  Students: students of Sino-Italian

Total Hours:90                    Credits: 9

Number of students :              Semester:First and Second       

 

        

  1. Course Description

The course aims at providing the students with the basic conceptions and theories of the mechanics of machines.

It is assumed that the notions of

·Kinematics of a particle

·Dynamics of a particle: Forces - Newton laws of motion – angular momentum and its conservation – work and energy – conservative and non-conservative forces, potential energy.

·Mechanics of a system of particles including collisions (elastic and inelastic).

·Mechanics of a rigid body: kinematics of a rigid body – systems of forces - dynamics of a rigid body – equations of motion 

 

2. Course Objectives and Requirements

1. Course Objectives

Basic Mechanics is a very important basic technical course for the majors of engineering and technology. It’s also the foundation of other mechanics courses.

The task of this course is to enable students to master the basic laws of mechanical movement and their research methods for particles, systems of particles and rigid bodies (including static and dynamic balance). Preliminary learn how to use these theories and methods to analyze and solve practical engineering problems (including abstracting theoretical mechanics model for some simple practical engineering problems), to learn a series of successor program to lay the necessary foundation for future learning and mastering new science and technology. 

2. Requirements

The students are expected to get prepared for lectures, finish and submit assignments as required.

3. Course Arrangement

1 - Introduction (1 hour)

It is assumed that the notions of 

 Kinematics of a particle  

Dynamics of a particle: forces - Newton laws of motion - angular momentum and its conservation -work and energy - conservative and non-conservative forces, potential energy.

Mechanics of a system of particles including collisions (elastic and inelastic).  

Mechanics of a rigid body: kinematics of a rigid body systems of forces - dynamics of a rigid body equations of motion

The students have already been partly dealt with in Physics 1 course. Nevertheless, in order to have an easier reference, a summary of the necessary introductory topics is also included herein, mainly in Chapters 2, 3 and 4.

This course will be dealing with the following main subjects:

 

2 Kinematics of particles and rigid bodies (16 hours)

 Position, velocity and acceleration representations 

 Vectors and complex numbers

Trajectory and law of motion of a massless particle

 Kinematics of a rigid body in plane motion 

 Constraints

 

3 Masses geometry (4 hours)

 Centre of mass

Mass moment of inertia

 

4 Statics and Dynamics of rigid bodies (20 hours)

 Static equilibrium equations

The principle of virtual work

D-Alembert principle and dynamic equilibrium equation

 Energy balance approach

 

5 Mutual actions in machinery elements (12 hours)

Solid body contacts

 Static and dynamic friction

 Rolling friction

 

6 Dynamics of a one degree of freedom machine (15 hours)

 Power source unit: internal combustion engine and electric motor

 Mechanical characteristic curves

 User definition

 Transmission

 Efficiency

 Working conditions of a machine

 Steady state and transient state conditions

 Load lifting plant machine

 Longitudinal dynamics of an automobile

 

4. Experiment or Computer Operation

None

 

5. Teaching Methods

Lectures、Discussions、Case Analysis, etc.

Foundation of Mechanics 1 BOOK

FM1 Chapter 1 Course introduction

FM1 Chapter 2-1 Basic concepts in Kinematics

FM1 Chapter 2-2  Kinematics of particles(2point1)(2014-2015)

FM1 Chapter 2-3  Kinematics of particles(2point2)(2014-2015)

FM1 Chapter 2-4  Kinematics of particles(2point3)(2014-2015)

FM1 Chapter 2-5  Kinematics of particles(2point4 and 5)(2014-2015)

FM1 Chapter 3 Masses geometry(2014-2015)

FM1 Chapter 4 Statics and Dynamics of rigid bodies(2014-2015)

FM1 Chapter 5 Mutual actions in machinery elements(2014-2015)

教改项目

获得2013年度电子与信息工程学院教学改革项目“便携式八足蜘蛛机器人的机械臂自由度分析”资助,项目成员:赵荣泳,李冰玉 、林剑国  、Massi Elisa、张鹏伟

Rongyong Zhao ,Bingyu Li,Jianguo Lin,Massi Elisa,Pengwei Zhang."DOF Analysis for the mechanical arm of a portable robot spider with eight legs" .Supported by Teaching reform project of School of Electronic and Information Engineering of Tongji University, 2013.

Project Presentation download

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电话:021-65988911-8628 传真:021-65983673  邮箱:cims@tongji.edu.cn

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