1 10th International Conference on Wear of Materials ACOUSTIC EMISSION IN MONITORING SLIDIN

博士生申请学位发表学术论文的规定为促进我校博士研究生科研能力与学术水平的提高，保证博士学位论文的质量，博士研究生在读期间、申请学位论文送审前发表的学术论文须符合以下规定：一、博士研究生以第一作者发表的学术论文须与学位论文相关，且符合各学院的要求(附后)；满足学院要求的学术论文中，须至少有1篇学术论文已公开发表，理工科类博士研究生其中须至少有1篇学术论文用英文发表。

二、在《华南理工大学学报》和其他高校学报，以及华南理工大学主办的其他学术期刊上发表的多篇论文只统计1篇，在学术会议上发表多篇会议论文只统计1篇，且各学科认可的学术会议上发表的学术论文须被SCI/EI收录。

三、博士研究生以本人为第一作者在本学科国际重要学术期刊上发表1篇学术论文，视为达到申请学位发表学术论文的要求。

四、博士研究生以第一发明人获得授权的与学位论文研究内容相关的发明专利相当于1篇SCI/EI收录的学术论文。

五、如无特殊说明，认可的期刊目录以录用时的版本为准，且不含增刊、特刊、专刊等；JCR期刊分区及SCI影响因子以录用、发表或提交审核时的最新版本为准；JCR期刊分区指科睿唯安JCR期刊分区。

六、提交审核的学术论文网络在线发表(即具有DOI号、在网络可查阅文章全文)视为公开发表。

七、被录用的学术论文应有编辑部的正式录用函和导师签名的论文投稿原件。

八、论文第一作者/专利第一发明人是指博士研究生本人署名第一，或者导师署名第一、本人署名第二；论文第一署名作者指博士研究生本人署名第一；论文的第一署名单位/专利申请人单位必须是华南理工大学。

九、博士研究生申请答辩时，如果其提交审核的学术论文中尚有正式录用但未公开发表(或发明专利申请公开但未正式授权)的，允许其组织学位论文答辩，答辩通过者，经所在学院学位评定分委员会审议可先准予毕业，但暂不审议其学位，待其在毕业后两年内所提交审核的学术论文全部公开发表(或专利授权)后，再由本人提出申请审议其学位。

IEEE拒绝收录的138个会议列表2011-10-27 14:54:18| 分类：EI、ISTP检索国际 | 标签：ieee 收录 138 会议列表 |字号大中小订阅IEEE拒绝收录的138个会议列表138个会议名单如下:2010 2nd Asia-Pacific Conference on Information Processing (APCIP)2010 2nd International Asia Symposium on Intelligent Interaction and Affective Computing & 2010 2nd International onInnovation Management (ASIA-ICIM)2010 2nd International Conference on Future Computer and Communication (FCC) 2010 2nd International Conference on Information and Multimedia Technology (ICIMT)2010 2nd International Conference on Intellectual Technique in Industrial Practice (ITIP 2010)2010 2nd International Conference on Multimedia and Computational Intelligence (ICMCI)2010 2nd International Conference on Research Challenges in Computer Science (ICRCCS)2010 2nd International Symposium on Computer Network and Multimedia Technology (CNMT 2010)2010 3rd International Conference on Computational Intelligence and Industrial Application (PACIIA)2010 3rd International Conference on Environmental and Computer Science (ICECS) 2010 3rd International Conference on Machine Vision (ICMV)2010 3rd International Conference on Power Electronics and Intelligent Transportation System (PEITS)2010 4th International Conference on Intelligent Information Technology Application (IITA)2010 6th International Conference on MEMS, NANO, and Smart Systems (ICMENS) 2010 First International Conference on Cellular, Molecular Biology, Biophysics and Bioengineering (CMBB)2010 IIS 2nd International Conference on Signal Processing, Robotics and Automation (ICSRA 2010)2010 International Asia Conference on Optical Instrument and Measurement (ACPIM)2010 International Conference on Bio-Inspired Systems and Signal Processing (ICBSSP)2010 International Conference on Biology, Environment and Chemistry (ICBEC) 2010 International Conference on Broadcast Technology and MultimediaCommunication (BTMC)2010 International Conference on Circuit and Signal Processing (ICCSP)2010 International Conference on Communication and Vehicular Technology (ICCVT)2010 International Conference on Computational Intelligence and Vehicular System (CIVS)2010 International Conference on Computer and Computational Intelligence (ICCCI) 2010 International Conference on Computer and Software Modeling (ICCSM)2010 International Conference on Computer Science and Sports Engineering (CSSE) 2010 International Conference on Computer-Aided Manufacturing and Design (CMD)2010 International Conference on Construction and Project Management (ICCPM) 2010 International Conference on Digital Enterprise and Digital Manufacturing (DEDM)2010 International Conference on E-business, Management and Economics (ICEME) 2010 International Conference on Economics, Business and Management (ICEBM) 2010 International Conference on Electrical Engineering and Automatic Control (ICEEAC)2010 International Conference on Embedded Systems and Microprocessors (ICESM) 2010 International Conference on Engineering Education and Educational Technology (EEET)2010 International Conference on Future Biomedical Information Engineering (FBIE) 2010 International Conference on Future Computer, Control and Communication (FCCC)2010 International Conference on Future Industrial Engineering and Application (ICFIEA)2010 International Conference on Future Information Technology (ICFIT)2010 International Conference on Future Information Technology and Computing (FITC)2010 International Conference on Graphic and Image Processing (ICGIP)2010 International Conference on Information and Finance (ICIF)2010 International Conference on Information Security and Artificial Intelligence (ISAI)2010 International Conference on Intelligence and Information Technology (ICIIT) 2010 International Conference on Intelligent Network and Computing (ICINC)2010 International Conference on Management Science (ICMS)2010 International Conference on Management Science and Information Engineering (ICMSIE)2010 International Conference on Manufacturing Science and Technology (ICMST) 2010 International Conference on Measurement and Control Engineering (ICMCE) 2010 International Conference on Mechanical and Aerospace Engineering (ICMAE) 2010 International Conference on Mechanical Engineering, Robotics and Aerospace (ICMERA)2010 International Conference on Modeling, Simulation and Control (ICMSC 2010)2010 International Conference on Nano Science and Technology (ICNST)2010 International Conference on Nanotechnology and Biosensors (ICNB)2010 International Conference on Nuclear Energy and Engineering Technology (NEET)2010 International Conference on Physics Science and Technology (ICPST)2010 International Conference on Psychology, Psychological Sciences and Computer Science (PPSCS)2010 International Conference on Remote Sensing (ICRS)2010 International Conference on Semiconductor Laser and Photonics (ICSLP)2010 International Conference on Services Science, Management and Engineering (SSME)2010 International Conference on Signal and Information Processing (ICSIP)2010 International Conference on Software and Computing Technology (ICSCT) 2010 International Conference on Sport Medicine, Sport Science, and Computer Science (SMSSCS)2010 ISECS International Colloquium on Computing, Communication, Control, and Management (CCCM 2010)2010 Second International Conference on E-Learning, E-Business, Enterprise Information Systems, and E-Government(EEEE)2010 Second International Conference on Test and Measurement (ICMT)2010 Second International Seminar on Business and Information Management (ISBIM)2010 Third International Conference on Computer and Electrical Engineering (ICCEE)2010 Third International Conference on Education Technology and Training (ETT) 2010 Third International Symposium on Intelligent Ubiquitous Computing and Education (IUCE)2010 Third Pacific-Asia Conference on Web Mining and Web-Based Application (WMWA)2011 15th Global Chinese Conference on Computers in Education (GCCCE)2011 2nd Asia-Pacific Conference on Wearable Computing Systems (APWCS)2011 2nd International Conference on Biomedical Engineering and Computer Science (ICBECS)2011 2nd International Conference on Biotechnology and Food Science (ICBFS) 2011 2nd International Conference on Data Storage and Data Engineering (DSDE) 2011 2nd International Conference on Environmental Science and Technology (ICEST)2011 2nd International Conference on Financial Theory and Engineering (ICFTE) 2011 2nd International Conference on Mechanical, Industrial, and Manufacturing Technologies (MIMT)2011 2nd Intl Conf on Innovative Computing & Communication and 2010 Asia-Pacific Conf on Information Technology &Ocean Engineering, (CICC-ITOE)2011 2nd World Congress on Computer Science and Information Engineering (CSIE) 2011 3rd IEEE International Conference on Information Management and Engineering (ICIME)2011 3rd International Conference on Bioinformatics and Biomedical Technology (ICBBT 2011)2011 3rd International Conference on Computer and Automation Engineering (ICCAE)2011 3rd International Conference on Computer and Network Technology (ICCNT) 2011 3rd International Conference on Computer Design and Applications (ICCDA 2011)2011 3rd International Conference on Computer Modeling and Simulation (ICCMS) 2011 3rd International Conference on E-business and Information System Security (EBISS)2011 3rd International Conference on Machine Learning and Computing (ICMLC) 2011 3rd International Conference on Networks Security, Wireless Communications and Trusted Computing (NSWCTC)2011 3rd International Conference on Signal Acquisition and Processing (ICSAP) 2011 3rd International Workshop on Education Technology and Computer Science (ETCS)2011 4th IEEE International Conference on Computer Science and Information Technology (ICCSIT 2011)2011 IEEE International Conference on Information and Education Technology (ICIET)2011 IEEE International Conference on Smart Grid and Clean Energy Technologies (ICSGCE)2011 International Conference on Applied Physics and Mathematics (ICAPM 2011) 2011 International Conference on Bioinformatics and Computational Biology (ICBCB)2011 International Conference on Bioscience, Biochemistry and Bioinformatics (ICBBB)2011 International Conference on Communication and Electronics Information (ICCEI)2011 International Conference on Computer and Communication Devices (ICCCD) 2011 International Conference on Computer Applications and Network Security (ICCANS)2011 International Conference on Computers, Communications, Control and Automation (CCCA)2011 International Conference on Control, Robotics and Cybernetics (ICCRC)2011 International Conference on Data Engineering and Internet Technology (DEIT) 2011 International Conference on Database and Data Mining (ICDDM)2011 International Conference on Digital Convergence (ICDC)2011 International Conference on Economics and Finance Research (ICEFR)2011 International Conference on Economics, Business and Marketing Management (CEBMM)2011 International Conference on Economics, Trade and Development (ICETD) 2011 International Conference on Electrical Energy and Networks (ICEEN)2011 International Conference on Energy and Environment (ICEE)2011 International Conference on Engineering and Information Management (ICEIM) 2011 International Conference on Environment Science and Engineering (ICESE) 2011 International Conference on Environmental Science and Development (ICESD) 2011 International Conference on Future Environment and Energy (ICFEE 2011) 2011 International Conference on Fuzzy Systems and Neural Computing (FSNC) 2011 International Conference on Information and Computer Applications (ICICA) 2011 International Conference on Information and Computer Networks (ICICN) 2011 International Conference on Information and Industrial Electronics (ICIIE) 2011 International Conference on Information Engineering and Mechanical Engineering (IEME)2011 International Conference on Innovation and Information Management (ICIIM) 2011 International Conference on Intelligent Information Networks (ICIIN)2011 International Conference on Knowledge Discovery (ICKD)2011 International Conference on Life Science and Technology (ICLST)2011 International Conference on Manufacturing and Industrial Engineering (ICMIE) 2011 International Conference on Mechanical and Aerospace Engineering (ICMAE) 2011 International Conference on Medical Information and Bioengineering (ICMIB) 2011 International Conference on Network Communication and Computer (ICNCC) 2011 International Conference on Product Development and Renewable Energy Resources (ICPDRE)2011 International Conference on Security Science and Technology (ICSST)2011 International Conference on Social Science and Humanity (ICSSH)2011 International Conference on Solid-State and Integrated Circuit (ICSIC)2011 International Conference on System Design and Data Proceesing (ICSDDP) 2011 International Conference on System。

交通大学各院系（学科）重要国际学术会议目录目录1.船工系 (5)2.国航系 (6)3.港工系 (8)4.微电子学院 (9)5.航空院 (12)6.化工学院 (14)7.机械与动力学院 (16)8.教育技术学院 (18)9.人文学院（科学史） (20)10.人文学院（历史学） (21)11.人文学院（中文学科） (22)12.软件学院 (23)13.外语学院 (27)14.信安学院 (29)15.药学院 (35)16.情报学 (36)17.档案学 (37)18.高教院 (38)19.Med-X (49)20.数学系 (56)21.电院 (58)22.生物工程、生物医药工程 (88)23.物理系 (91)24.管理学院 (94)25.塑性成形学科 (95)26.环境学院 (97)27.农生学院 (99)28.医学院 (102)船工系重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）国航系重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）三、B类会议（学术水平较高、按一定时间间隔规范化、系列性召开的国际会议）港工系重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）微电子学院重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）航空院重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）化工学院重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）三、B类会议（学术水平较高、按一定时间间隔规范化、系列性召开的国际会议）机械与动力学院重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）三、B类会议（学术水平较高、按一定时间间隔规范化、系列性召开的国际会议）教育技术学院重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）三、B类会议（学术水平较高、按一定时间间隔规范化、系列性召开的国际会议）人文学院（科学史）重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）三、B类会议（学术水平较高、按一定时间间隔规范化、系列性召开的国际会议）人文学院（历史学）重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）三、B类会议（学术水平较高、按一定时间间隔规范化、系列性召开的国际会议）人文学院（中文学科）重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）软件学院重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）三、B类会议（学术水平较高、按一定时间间隔规范化、系列性召开的国际会议）外语学院重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）三、B类会议（学术水平较高、按一定时间间隔规范化、系列性召开的国际会议）信安学院重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）三、B类会议（学术水平较高、按一定时间间隔规范化、系列性召开的国际会议）药学院重要国际学术会议一、A类会议（本学科高水平国际会议）情报学重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）档案学重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）高教院重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）二、A类会议（本学科高水平国际会议）三、B类会议（学术水平较高、按一定时间间隔规范化、系列性召开的国际会议）Med-X 重要国际学术会议一、顶尖级国际会议（代表本学科领域最高水平的国际会议）。

《文献检索与利用》总复习题库（Literature search and utilization review the question bank）General review questions bank of "document retrieval and utilization"First, individual choice questions1. or less is not Boolean logicA.NOTB.ORC.ANDD.NEARThe usual order of operations of 2. Boolean logic operators is ():When A. has parentheses, the parentheses are first executed; NOT, > AND > OR without parenthesesWhen B. is bracketed, the parentheses are executed first; when parentheses are not there, NOT > OR >ANDWhen C. has parentheses, the parentheses are first executed; AND >NOT > OR without parenthesesWhen D. has parentheses, the parentheses are first executed;AND, > OR > NOT without parentheses3. words and phrases? "Can be used instead of 0 or more characters?"A. more than oneB.1C.2D.34. which of the following is the abbreviation of the library public directory retrieval system?A. CalisB. NSTLC. OCLCD. OPACWhat is the unique identifier of the 5.ISSN?A. conference documentsB. standard documentsC. thesisD. JournalWhat is the unique identifier of the 6.ISBN?A. booksB. JournalC. Technology ReportD. patent documents7. which of the following databases is a full-text database?A.CPCIB.Elsevier Science DirectC.EID. SCI8. use Adobe Reader to read the files in which formatA.PDFB. VIPC. HTML9.cajviewer is the following database full text reading software:A. Superstar Digital LibraryB. VIP Chinese science and Technology Periodicals DatabaseKI CNKI full text libraryD. Wanfang Data Resources10. browsing superstar digital library, should be installed first:A. Apabi ReaderB. Adobe ReaderC. CAJ ViewerD. SSReader11. the following databases belong to the bibliographic databaseA. SCIB. ISTPD. library OPAC12.PQDT isA. conference document databaseB. dissertation databaseC. standard document databaseD. science and technology reporting database13.AD, PB, NASA, and DOE are the four largest U.S. government reports, in which NASA refers toA. administrative reportB. Energy ReportC. military reportD. Aerospace Report14. () is a large, informative and comprehensive instrument that reflects all the knowledge, categories, or basic knowledge and basic circumstances of a human being. It is called the king of the book of tools".A. dictionaryB. EncyclopediaC. YearbookD. manual15. which of the following databases do not belong to the numeric and factual databases?A. China Information BankB. search network, statistical yearbook, databaseC. country research dataD. NPC press copy information16. in which of the following search tools can you get statistics over the years?A. dictionaryB. EncyclopediaC. YearbookD. manual17. which of the following retrieval systems provides citations for journals and references?A. WEB OF SCIEB. OCLCC. OPACD. EI18. the following Boolean logic operators are.A. andB. orC.D.near19. commonly used retrieval systems areA. directory retrieval systemB. digest retrieval systemC. full text retrieval systemD. or more20. what kind of retrieval system does the online public directory retrieval system (OPAC) belong to?A. directory retrieval systemB. digest retrieval systemC. full text retrieval system21., we can sum up the general steps of information retrieval.A.1. analysis of search topics, a clear demand for information;2. sources of information, knowledge retrieval system;3. access, selected4. retrieval methods; implementation of retrieval strategy, evaluation of retrieval results;5. adjust the search strategy to obtain the required information;6. analysis of management information, rational use of informationB.1. selects information sources, 2. develops strategies and implements retrieval, 3. evaluation information, 4. adjusts retrieval strategies, and 5. analyzes and utilizes informationC. 1. develops strategies, 2. defining questions, 3. selecting information sources, 4. implementing retrieval, 5. evaluating information, and 6. analyzing and utilizing informationD.1. define problems, 2. select information sources, 3.Develop strategies, 4. implement retrieval, and 5. evaluate information22., you need to write a report on the current status of businessintelligence systems, which should focus on the following information sources.A. web pagesB. newspaperC. magazineD. all kinds of literature database23. the standard format of reference is ().A. author Title SourceB. source of famous authorsPlease mark the 24. documents: Ma Pinzhong. Study on large astronomical telescope. China space science and technology, 1993, 13 (5) P6 - 14, ISSN1000 - 758X which belongs to the type of literature ().A. booksB. Technology ReportC. JournalD. newspaper25. in retrieval language, it is natural language.A. Heading WordsB. keywordC. unit wordsD. keywords26., what kind of retrieval methods should be taken after using the references found in the literature to expand the search scope?A. tool methodB. intersection methodC. retrospective method (snowball method)D. method27. which title of the following retrieval expressions is correct in retrieving the title of the poem entitled "poetry of the Tang and Song Dynasties"?.A. (title = Tang or title = song) and title = PoetryB. title = Tang or title = song and title = PoetryC. title = Tang and title = song or title = PoetryD. title = Tang or title = song or title = Poetry28. which of the following documents belong to the special literature?A. booksB. conference documentsC. JournalD. newspaperAre the fields represented by the 29. field codes AU, AB and PY represented?A. titles, annotations, abstract typesB. authors, abstracts, and publication yearsC. descriptors, classifications, languages30. what is the largest digital library in China?A. superstarB. scholar's homeC. founderD. Wanfang31., Xiao Li students need to find some data about the national economic life, which database can be retrieved in the following?A. Chinese VIP journalsB.EIC. National Research NetworkD.EBSCO32. foreign language full-text database, search results are sorted in several ways, if you want to sort in accordance with the relevant, you should choose: ()A.dateB.sourceC.authorD.relevance33.. This is a literature retrieved in web of science. What is the type of literature in this article?:Title:, Using, desktop, computers, to, solve, large-scale, dense,, linear, algebra, problemsAuthor (s): Marques M.; Quintana-Orti G.; Quintana-Orti E. S.; et al.Conference: Symposium on High Performance Computing (HPC) Applied to Computational Problems in Science and Engineering/9th International Conference on Computational and Mathematical Methods in Science and Engineering Location: Gijon, SPAIN Date: JUN, 2009Source:, JOURNAL, OF, SUPERCOMPUTING, Volume:, 58, Issue:, 2, Special, Issue:, SI, Pages:, 145-150, DOI:,10.1007/s11227-010-0394-2,, Published:, NOV,...A. Journal PapersB. booksC. Conference PapersD. Technical Report34.. The classification numbers of commonly used foreign language and economic books in this museum are respectively:A.H, FB.H, CC.I, HE.I, F35. using the library bibliographic retrieval system, Xiao Li's classmate retrieved a book with the classification number "H319CF". What's the significance of the classification number?A. CET Band FourB. CET Band SixC. postgraduate English testD.Tofel test36. Wang students want to find the "The Washington Post" on November 7th, an article entitled "No favorites emerge in race for horse of the year" text and listen to what can be downloaded, the museum has purchased what search resources of foreign language in the database?A.Elsevier SDB. EBSCO之报纸资源c.wsnD.翡翠二、多选题1。

社交电商营销策略研究国内外文献综述目录社交电商营销策略研究国内外文献综述 (1)1. 国内研究现状 (1)（1）对社交电商的定义和特点的研究 (1)（2）对社交电子商务发展现状研究 (1)（3）对社交电子商务发展模式研究 (1)（4）对社交电商发展策略的研究 (2)2. 国外研究现状 (2)（1）对于社交电商概念的研究 (2)（2）对社交电商特征的研究 (2)3. 文献评述 (3)参考文献 (3)1.国内研究现状如果我们梳理关于社交电商的国内文章，我们会发现国内对社交电商的研究要多得多，但以社交电子商务营销策略为切入点的研究较少，相关研究也是基于宏观视角和国外案例展开，关于中国的国情和社交电子商务平台的具体研究很少。

总的来说，国内研究人员对社交电商的下列几方面进行了研究: （1）对社交电商的定义和特点的研究王胜平,陈康,付银霜（2020）等研究发现，社交电子商务是基于互联网发展起来的电商平台，其经营以与用户密切沟通交流为主要特点，可以在当前的商业网络环境中推动消费者的新消费需求[3]。

叶舜雅（2017）认为，社交性，需求被动性，内容自我可持续性，信息双向沟通和信任转移是社交电子商务的特点，与普通的电子交易不同，社交电商用户的需求是被动的[4]。

由于社区中朋友的购买和推荐，用户往往倾向于购买。

（2）对社交电子商务发展现状研究余蓉（2020）提出社交电商的最终目标是让用户消费。

他们也分析总结了社交电子商务现在的发展过程中存在移动支付受到限制，流量消耗过大，行业标准不完善等问题[5]。

李响（2017）通过研究国外社交电子商务网站的发展现状后指出，基于社交网络和兴趣偏好的电子商务是未来电子商务行业的发展方向[6]。

邹黎（2020）认为目前中国社交电商发展的资金和资源不足，同类别产品的竞争过于激烈，对单一平台过度依赖等问题和局限性[7]。

（3）对社交电子商务发展模式研究杨世武,苑心怡（2020）在对我国社交电商的发展现状研究后认为，当前，社交与电商结合的发展模式还没有形成一套行业标准。

IEEE工业信息学国际学术会议在北航召开IEEE工业信息学国际学术会议在北航召开7月25日至27日，第十届IEEE工业信息学国际学术会议（IEEE 10th International Conference on Industrial Informatics，INDIN 2016 ) 在北京航空航天大学新主楼会议中心召开。

会议由IEEE-IES 学会和北京航空航天大学联合主办，来自40多个国家约200余人参加会议，并围绕绿色工业信息学的主题展开了研讨。

北京航空航天大学自动化学院焦宗夏院长任大会主席，王少萍副院长任程序委员会主席。

本次会议得到了国家自然科学基金委、中国航空学会、IEEE 北京分会、中国运筹学会可靠性分会、中国体视学会等的大力支持。

大会于7月26日在北京航空航天大学新主楼会议中心开幕，开幕式由INDIN2016程序委员会主席王少萍教授主持，大会主席自动化学院院长焦宗夏教授和IEEE-IES学会副主席INDIN2016大会协主席Yousef Ibrahim教授致开幕辞，对与会嘉宾表示欢迎和感谢。

大会邀请了国际最顶尖的学者举行了4场高水平的大会报告和3场特邀报告，得到大家的普遍认可，4场高水平大会的报告人分别是：Fello IEEE, Fello IFAC, Fello U.K国际著名网络控制专家美国德克萨斯大学阿灵顿分校的F. L. Leis教授、中国工程院院士上海交通大学副校长林忠钦院士、澳大利亚卧龙岗大学Christopher David COOK 教授和美国路易斯安那州立大学Bhaba R. Sarker教授。

三个特邀报告人分别是德国慕尼黑University der Bundesehr大学的Stefan Pickl教授、台湾国立勤益科技大学的Her-Terng Yau教授和新加坡科学与技术研究中心的Zhengguo Li博士。

来自美国、德国、日本、丹麦、俄罗斯、新加坡等40多个国家和港澳台地区的100余位境外学者参加会议，国内参会人员汇集了相关行业、学会、研究所和学校的领导、学术带头人以及企业负责人，代表了国内的最高水平进行了国际交流。

Opening sessionDistinguished guests and dear friends:I am honored to welcome you all at Shaan xi Normal University and to this international conference on global environmental change . We are deeply proud to jointly organize this activity with Make.I am very pleased to see here many representatives from neighboring countries and partner countries, international organizations, project implementers.I am truly proud of our international community which could show constant interest in the environmental issues of the country and the region by gathering together to discuss the progress, analyze new challenges and agree on the steps of joint efforts towards safe and stable future. It is an expression of a dimension of our mission in this globalize world. It is in fact a constituent of our global responsibility.With no doubt, the development of economy has contributed throughout history to the betterment of different aspects of the daily life. Today, we are enjoying the gift of nature. Many times, we unfortunately take things for granted. Until one day, we found the nature that we know has changed or distorted beyond recognition, we are facing air pollution, global warming and tainted soil and water. Developments in the field have always continued to take place. Our conference today is a step forward on this long journey.I’m not going to talk about the “why” and the “what” of this conference, indeed this I would leave to our guests, speakers and participants, to explore and share with us. However, I will simply underline another dimension of this conference’s mission which is commitment to the community.There is a good tradition to meet regularly to share our ideas and find new and more effective ways of action, to evaluate the results and impact. we seek academic excellence, and nowadays, international exposure of faculty and students has become an essential component of excelling academically. This participation of prominent international speakers in this conference will immensely contribute to our academic atmosphere. Indeed, your experience and knowledge, honorable and distinguished guests, will also enrich our cultural diversity and strengthen it academically. It is in fact a scientific cooperation in a cross-cultural context.Finally, allow me to express my sincere appreciation for your presence in Xi’An and in this conference. I want to thank the organizers for choosing Xi’An as the venue for this conference and I also want to thank all of you for traveling to our beautiful city. I am confident that you will enjoy your stay and that the conference will be an informative and enjoyable event.Thank you for your attention.Closing sessionDear friends and colleges,First of all, I would like to thank Mrs. Make and the organizing committee or having appointed me to serve as the chair of this conference.We are now very close to the end of this conference. I believe that our conference is a great success. It went smoothly as scheduled. In these two days the conference has covered so many important and complex problems in the flied of global environmental change both theoretical and practical. All the presentations were very illuminating and informative. And the heated panel discussions were very stimulating and fruitful. Now, with great joy and reluctant mind to part, we get together again to declare that the conference has drawn to a successful close.It’s our hope that the result of the conference will carry the study of global environmental change to a new stage. We all hope to maintain close contact and cooperation with each other in the field of future research work on global environmental change.As the chair of the conference, I would like to express my thanks again.Thank you for coming to the 1st international conference of global environmental change.Thank you to everybody who had contributed to the conference with reports and introductions.And last but not least, thank you to Mrs. Make for the overall organizing of the conference.And last, my friends, see you next year in Nanjing, and have a safe trip home, thank you all.。

ieee international conference注意事项-概述说明以及解释1.引言1.1 概述IEEE国际会议是全球范围内最具权威和影响力的学术会议之一，每年都会有来自世界各地的学者、研究人员和专业人士齐聚一堂，分享最新的科研成果、交流学术思想和探讨未来发展方向。

本次会议旨在促进学术交流、推动技术创新、激励学术研究和推广知识分享，为参会者提供一个宝贵的机会，让他们从中获益良多。

在本次会议中，我们将邀请众多国内外顶尖专家学者进行学术交流和演讲，涵盖领域广泛、内容丰富，旨在激发与会者的学术热情、拓展学术视野、提升学术水平。

通过参与本次会议，与会者将有机会结识同行业的优秀人才、学习到国际最新的科研动态、拓展自己的学术圈子，并有可能从中获得合作和发展的机会。

本次会议将围绕着“创新、合作、分享、发展”四大主题展开讨论，希望能够为与会者带来一场富有启发性、创新性和实用性的学术盛会。

欢迎各位对学术研究感兴趣的伙伴们踊跃报名参加，一同分享学术的魅力，共同促进学术进步和发展。

1.2 文章结构文章结构部分的内容应该包括以下内容：1. 文章主题和背景介绍：简要介绍IEEE国际会议的背景和意义，以及本次会议的主题和重点领域。

2. 研究目的和意义：阐明本次会议的目的和意义，说明举办这样的会议对于学术界和行业发展的重要性。

3. 论文评审和发表：介绍会议的论文评审流程，如何提交论文以及被接收后的出版和发表情况。

4. 参会安排和注册方式：说明参会者应该如何注册参会，了解会议的日程安排和重要活动。

5. 学术交流和合作机会：强调会议为学者和行业专家提供了交流和合作的机会，促进学术研究和产业发展。

在文章结构部分，可以通过以上几点内容帮助读者更好地了解本文的主题和框架，引导他们对文章的整体内容有一个清晰的认识。

1.3 目的本文旨在向参加ieee international conference的相关人员介绍一些注意事项，帮助他们更好地参与会议、学术交流和演讲。

学科一：序号 会议英文名称会议英文名称缩写 会议中文名称会议主办机构 备注（会议频次）1American Physics Society March MeetingAPS 美国物理学年会APS 每年一次2Material Research Society: Spring meeting and Fall meetingMRS 美国材料学年会MRS 每年两次3European Material Research Society: Spring meeting and Fall meeting E-MRS 欧洲材料学年会EMRS 每年两次4International Conference on the Physics of Semiconductors ICPS 国际半导体物理会议IOP 每两年一次5The World Anniversary Congress on BiosensorsWACB世界生物传感器大会Elsevier每年一次序号 会议英文名称会议英文名称缩写 会议中文名称会议主办机构 备注（会议频次）1Magnetic and Magnetic MaterialsMMM 磁学和磁性材料会议APS 每年一次2International Conference on Computational Physics ICCP 国际计算物理会议IAPCM 每年一次3International Conference on Defects in Semiconductors ICDS 国际半导体缺陷会议Elsevier 每年一次4International Conference of the European Ceramic Society ICECS 欧洲陶瓷学年会ECS 每年一次5International Conference on Composite MaterialsICCM 国际化合物材料会议ICCM 每年一次6International Conference and Expo on Advanced Ceramics and Composites ICEACC 国际先进陶瓷和化合物会议ACS 每年一次7International Sol-Gel ConferenceISGC 国际溶胶-凝胶会议ISGS 每年一次8International Symposium on Compound Semiconductor ISCS 化合物半导体国际会议Wiley 每年一次9International Conference on NanotechnologyIEEE Nano 国际纳米技术会议IEEE 每年一次10IOP Conference Series: Materials Science and EngineeringMSE材料科学与工程会议IOP每年一次序号 会议英文名称会议英文名称缩写 会议中文名称会议主办机构 备注（会议频次）1International Symposium on Bioanalysis, Biomedical Engineering and NanotechnologyISBBEN 国际生物医学工程和纳米技术会议HU 每年一次2Semiconductor Interface Specialists ConferenceSISC 半导体界面会议IEEE 每年一次3International Congress on Materials and Renewable Energy ICMRE 国际材料与可再生能源大会MRE 每年一次4International Conference on II-VI CompoundsII-VI 国际II-VI 族化合物会议Wiley 每两年一次5International Conference on Molecular Beam EpitaxyICMBE 国际分子束外延会议Elsevier 每两年一次6International Conference on Thin Film and Surface Coating Technology ICTFSCT 国际薄膜和表面技术会议TFS 每年一次7International Conference on Ceramic Processing ScienceICCPS 国际陶瓷制备科学会议ACS 每年一次8International Conference on Thin Film Physics and Application ICTFPA 国际薄膜物理和应用会议SPIE 每两年一次9International Conference on ElectrospinningICES国际电子自旋会议ACS每年一次华东师范大学信息科学技术学院各学科重要国际学术会议目录（2017版）物理电子学一、顶尖级国际会议二、A 类国际会议三、B 类国际会议10Symposium on Materials and Chemical Engineering SMCE材料和化学工程会议SRP每年一次11Asian Workshop on First-Principles Electronic Structure Calculations AWFPESC亚洲电子结构第一性原理计算研讨会APCTP/KPS每年一次学科二：序号会议英文名称会议英文名称缩写会议中文名称会议主办机构备注（会议频次）1IEEE International Electron Devices Meeting IEDM国际电子器件会议IEEE每年一次2IEEE International Solid-State Circuits Conference ISSCC国际固体电路会议IEEE每年一次3IEEE International Conference on Microelectromechanical Systems MEMS国际微机电系统会议IEEE每年一次4IEEE International Conference on Solid-State Sensors and Actuators TRANSDUCERS国际固态传感器与执行器会议IEEE每两年一次5International Conference of Circuits and Systems I CCAS国际电路与系统会议IEEE每年一次6 IEEE Photovoltaic Specialists Conference PVSC IEEE光伏专家会议IEEE每年一次序号会议英文名称会议英文名称缩写会议中文名称会议主办机构备注（会议频次）1IEEE Symposium on VLSI Technology/Circuit VLSI国际VLSI技术与电路会议IEEE每年一次2International Conference on Simulation of Semiconductor Processes andDevicesSISPAD国际半导体工艺模拟和器件会议IEEE每年一次3IEEE Custom Integrated Circuits Conference CICC国际定制集成电路会议IEEE每年一次4International Conference on Solid-State Devices and Materials SSDM国际固体器件与材料会议IEEE每年一次5IEEE Sensors Conference Sensors国际传感器会议IEEE每年一次6International Conference on Optical MEMS and Nanophotonics OMN国际光学MEMS和纳米光子学会议IEEE每年一次7International Conference on Optoelectronics and MicroelectronicsTechnology and ApplicationOMTA国际光电子与微电子技术及应用研讨会IEEE每年一次8Electronic Components and Technology Conference ECTC国际电子元件与技术会议IEEE每年一次9Internation Symposium on Integrated Ferroelectrics ISIF国际集成铁电会议IEEE每年一次10IEEE International Symposium on Circuits and Systems ICCAS国际电路与系统会议IEEE每年一次11The International Photovoltaic Science and Engineering Conference PVSEC国际光伏科学与工程会议PVSEC每年一次序号会议英文名称会议英文名称缩写会议中文名称会议主办机构备注（会议频次）1IEEE Custom Integrated Circuits Conference CICC国际定制集成电路会议IEEE每年一次2European Solid-State Circuits Conference ESSCIRC欧洲固态电路会议IEEE每年一次3International Conference on Computer-aided Design ICCAD国际计算机辅助设计会议IEEE每年一次4IEEE International Conference on Nano/Micro Engineered and MolecularSystemsNEMS国际微纳工程和分子系统会议IEEE每年一次微电子学与固体电子学一、顶尖级国际会议二、A类国际会议三、B类国际会议5International Conference on Solid-State and Integrated-Circuit Technology ICSICT 国际固态集成电路技术会议IEEE 每年一次6IEEE Conference on NanotechnologyNANO 国际纳米技术会议IEEE 每年一次7IEEE International Symposium on the Physical and Failure Analysis of Integrated CircuitsIPFA 器件测试与失效分析国际会议IEEE Electron Devices Society每年一次8The IEEE International Conference on Nano/Micro Engineered and Molecular SystemsNEMS 纳机电系统国际会议IEEE NanotechnologyCouncil 每年一次9International Conference on Acoustic Speech and Signal ICASSP 国际语音信号会议IEEE 每年一次10Internation Symposium on Integrated FerroelectricsISIF 国际集成铁电会议IEEE 每年一次11International Conference on Very Large Scale IntegrationVLSI 超大规模集成电路研讨会IEEE每年一次12International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications Power-MEMS 国际微纳技术发电和能量转换应用会议IEEE 每年一次13IEEE International Conference On ASIC ASICON 专用集成电路国际会议IEEE 两年一次14IEEE International Reliability Physics Symposium IRPS 器件可靠性物理国际会议IEEE Electron Devices Society 每年一次15Symposia on VLSI Technology and CircuitsVLSI Symposium大规模集成电路国际会议IEEE Electron Devices Society每年一次序号 会议英文名称会议英文名称缩写 会议中文名称会议主办机构 备注（会议频次）1International Microwave Theory and Techniques Symposium MTT-S 国际微波理论与技术研讨会IEEE 每年一次2IEEE Symposium on Antennas and Propagation AP-S 国际天线与电波传播会议IEEE 每年一次3The European Microwave ConferenceEuMC 欧洲微波会议The European Microwave Association 每年一次4Asia Pacific Microwave ConferenceAPMC 亚太微波会议IEEE 等每年一次5IEEE Radio Frequecny Integrated Circuits SymposiumRFIC射频集成电路论坛IEEE每年一次序号 会议英文名称会议英文名称缩写 会议中文名称会议主办机构 备注（会议频次）1IEEE Symposium on Electromagnetic Compatibility & Signal Integrity EMCSI 电磁兼容与信号完整性会议IEEE 每年一次Progress In Electromagnetics Research Symposium PIERS 电磁研究进展研讨会TheElectromagneticsAcademy 每年二次2Asia Pacific Conference on Antenna and Propagation APCAP 亚太天线与传播会议IEEE 等每年一次3European Conference on Antenna and PropagationEUCAP欧洲天线与传播会议EURAAP每年一次一、顶尖级国际会议学科三：电磁场与微波技术二、A 类国际会议4International Congress on Advanced Electromagnetic Materials in Microwaves and Optics- MetamaterialsMetamaterials****微波与光学中先进电磁材料国际会议Metamorphose Virtual Institute每年一次5International Review of Progress in Applied Computational Electromagnetics ACES 国际应用计算电磁学进展会议ACES 每年一次6International Microwave and Optoelectronics Conference IMOC 国际微波与光电子学会议IEEE-MTTS每二年一次7Numerical Simulation of Optoelectronic Devices(NUSOD)光电器件数字仿真IEEE 每年一次8International Conference on Infrared, Millimeter, and Terahertz Waves IRMMW-THz红外与毫米波、太赫兹国际会议IEEE 每年一次9Internatioanl Wireless SymposiumIWS国际无线会议IEEE每年一次学科四：序号 会议英文名称会议英文名称缩写 会议中文名称会议主办机构 备注（会议频次）1(Spring, Fall Meeting) of American Geophisical Union, AGU 美国地球物理协会（春季、秋季）年会AGU 每年两届2International Union of Geodesy and Geophysics Meeting, IUGG IUGG欧洲地球物理协会年会IUGG 每年一届3European Geophysical Union Annual Meeting, EGU 国际大地测量和地球物理协会大会EGU 每两年一次4IEEE Global Communications ConferenceGLOBECOMIEEE全球通信会议IEEE 每年一届5IEEE International Conference on Communications ICC IEEE国际通信会议IEEE 每年一届6IEEE International Symposium on Information TheoryISITIEEE国际信息论研讨会IEEE每年一届序号 会议英文名称会议英文名称缩写 会议中文名称会议主办机构 备注（会议频次）1Asian and Pacific Space Geodynamics Meeting, , APSG 亚太地区空间地球动力学研究计划EGU 每年一届2IEEE Vehicular Technology ConferenceVTC IEEE车辆技术会议IEEE 每年两届3IEEE Internation Conference on Computing, Networking and CommunicationsICNC IEEE国际计算网络与通信会议IEEE 每年一届4IEEE Wireless Communications & Networking ConferenceWCNC IEEE无线通信与网络会议IEEE 每年一届5International Conference on Complex Networks and Their ApplicationsICCNA复杂网络及其应用国际会议Springer每年一届序号 会议英文名称会议英文名称缩写 会议中文名称会议主办机构 备注（会议频次）1International Conference on Computational Science and Applications ICCSA 国际计算科学和应用会议Springer LNCS 每年一届2Symposium on Fractional Derivatives and Their ApplicationsFDTA 国际分数阶微积分与应用研讨会ASME/IEEE每年一届3International Conference on Simulation and Modeling, Methodologies,Technologies and ApplicationsSMTA系统仿真，建模及其应用国际研讨IEEE每年一届学科五：一、顶尖级国际会议通信与信息系统一、顶尖级国际会议二、A 类国际会议三、B 类国际会议信号与信息处理序号会议英文名称会议英文名称缩写会议中文名称会议主办机构备注（会议频次）1ACM International Conference on Multimedia ACM MM国际多媒体会议ACM每年一届2AAAI Conference on Artificial Intelligence AAAI AAAI人工智能大会AAAI每年一届3IEEE Conference on Computer Vision and Pattern Recognition CVPR计算机视觉与模式识别大会IEEE每年一届4International Conference on Computer Vision ICCV国际计算机视觉会议IEEE两年一届5European Conference on Computer Vision ECCV欧洲计算机视觉会议Springer两年一届二、A类国际会议序号会议英文名称会议英文名称缩写会议中文名称会议主办机构备注（会议频次）1International Conference on Multimedia Modeling MMM国际多媒体建模会议Springer每年一届2International Conference on Image Processing ICIP国际图像处理会议IEEE每年一届3Pacific rim Conference on MUltimedia PCM亚太地区多媒体学术会议Springer每年一届4IEEE International Conference on Acoustics,Speech and SP ICASSP国际声学、语音和信号处理大会IEEE每年一届5IEEE International Conference on Multimedia& Expo ICME国际多媒体博览会IEEE每年一届6Asian Conference on Computer Vision ACCV亚洲计算机视觉会议Springer两年一届7International Conference on Pattern Recognition ICPR模式识别国际会议IAPR两年一届8International Joint Conference on Biometrics ICB生物特征识别国际会议IEEE每年一届9International Joint Conference on Neural Networks IJCNN神经网络国际联合会议IEEE每年一届10British Machine Vision Conference BMVC英国机器视觉会议Springer每年一届11Visual Communication and Image Processing Conference VCIP视觉通信与图像处理大会IEEE每年一届12International Conference on Algorithmic Learning Theory ALT算法学习理论国际会议Springer每年一次。

2024一级学术会议计划英文回答：1. First International Conference on Artificial Intelligence and Machine Learning (ICAIML)。

Date: January 25-27, 2024。

Location: Virtual.2. Fifth IEEE International Conference on Signal Processing, Information, Communication and Engineering Systems (SPICES)。

Date: March 18-20, 2024。

Location: Bangalore, India.3. International Conference on Computer Science and Software Engineering (CSSE)。

Date: April 15-17, 2024。

Location: Paris, France.4. International Conference on Data Science and Analytics (ICDSA)。

Date: May 22-24, 2024。

Location: Barcelona, Spain.5. 10th International Conference on Information and Communication Technologies (ICTs)。

Date: June 5-7, 2024。

Location: Vienna, Austria.6. International Conference on Electronics, Communication and Aerospace Technology (ICECA)。

Date: July 15-17, 2024。

A Survey of Research on Mobile Cloud ComputingLe Guan Beijing University of Posts and TelecommunicationsBeijing, China optimism1226@Xu KeBeijing University of Postsand TelecommunicationsBeijing, Chinapermit@Meina SongBeijing University of Postsand TelecommunicationsBeijing, Chinamnsong@Junde SongBeijing University of Postsand TelecommunicationsBeijing, Chinajdsong@Abstract—The rapid development of mobile computing and cloud computing trigger novel computing paradigm-----Mobile Cloud Computing. This paper review current research effort towards Mobile Computing. First, we present several challenges for the design of Mobile Cloud Computing service. Second, a concept model has been proposed to analyze related research work. Third, we survey recent Mobile Cloud Computing architecture, application partition & offloading , and context-aware service.Keywords-mobile cloud computing, application partition, offloading, context-awareI.I NTRODUCTIONNowadays, the market of mobile phone has expanded rapidly. By the end of 2009, less than 20 years later, the number of mobile cellular subscriptions worldwide reached approximately 4.6 billion, 370 times the 1990 number [1]. The widely use of mobile phone lead to the prosperity of mobile service. Dream of “Information at your fingertips anywhere, anytime” has become true. However, mobile devices still lack in resources compared to a conventional information processing device such as PCs and laptops. Also, the limitation of battery restricts working time. How to augment capability of mobile phone has become the important technical issue for mobile computing.The paradigm of cloud computing brings opportunities for this demand. Cloud computing provide new supplement, consumption, and delivery model for IT service. Cloud-based services are on-demand, scalable, device-independent and reliable. Thus, there comes Mobile Cloud Computing, which aims at using cloud computing techniques for storage and processing of data on mobile devices, thereby reducing their limitations. According to ABI Research, by 2015, more than 240million business customers will be leveraging cloud computing services through mobile devices, driving revenues of $5.2billion[2].To deliver cloud service in mobile environment, we might face several problems. Device may hand off among different wireless transmission district, and transport channels are not so reliable to guarantee cloud service delivery. Furthermore, mobile devices can’t handle complicated applications due to their innate characters. Also, it is impossible that mobile device always online, that is, we should consider the offline solution for mobile device. What’s more, the absence of standards, security and privacy, elastic mobile applications requirement may obstruct the development of Mobile Cloud Computing as well.Researchers provide various solutions for Mobile Cloud Computing service. Some proposal application partition & offload schemes to leverage the working load of Cloud and Client, which may reduce processing burden on the mobile client. Several researchers focus on the feature of “Mobile”, to provide context-aware service for users, which may triggers new applications for mobile environment. Contexts include geo-location and social activities.This paper introduces the basic model of Mobile Cloud Computing, and surveys state-of-art of systems. First, we describe technical challenges of Mobile Cloud Computing. Then, after introducing concept model and basic architecture, we survey key technologies, e.g. partition & offloading and context-based service. At last, we conclude the recent research activities of Mobile Cloud Computing.The rest of paper is organized as follows: SectionⅡshows challenge of Mobile Cloud Computing service. Section Ⅲpresents basic model and architecture of Mobile Cloud Computing systems. Section Ⅳtalks about partition & offloading schemes and SectionⅤdescribes context-aware service. Section Ⅵ conclude the whole paper.II.C HALLENGES OF M OBILE C LOUD C OMPUTING Mobile Cloud Computing services are implemented in mobile wireless environment, incorporating several challenges such as the dependency on continuous network connections. Also Mobile Cloud Computing concepts rely on an always-on connectivity and will need to provide a scalable and high quality mobile access.work latency and limited bandwidth in the mobilenetworkFirst, Mobile Cloud Computing may face the challenge from the transmission channel due to the intrinsic nature and constraints of wireless networks and devices. This is especially true when it comes to rich-internet and immersive mobile applications, e.g. online gaming and augmented reality that require high-processing capacity and minimum network latency. These will most probably continue to be processed2011 10th IEEE/ACIS International Conference on Computer and Information Sciencelocally on powerful smart phones and mobile tablets. Mobile broadband networks generally require longer execution times for a given application to run in the cloud and network latency issues may deem certain applications and services unfit for the mobile cloud.B.Various access scheme in mobile envinromentMobile Cloud Computing would be deployed in a heterogeneous access scenario with different radio access technologies such as GPRS, 3G, WLAN, WiMax. Mobile Cloud Computing requires wireless connectivity with the following features:•Mobile Cloud Computing requires an “always-on”connectivity for a low data rate cloud control signalingchannel.•Mobile Cloud Computing requires an “on-demand”available wireless connectivity with a scalable linkbandwidth.•Mobile Cloud Computing requires a network selection and use that takes energy-efficiency and costs intoaccount.The most critical challenge of Mobile Cloud Computing is probably to guarantee a wireless connectivity that meets the requirements of Mobile Cloud Computing with respect to scalability, availability, energy- and cost-efficiency [3].C.Elastic application modelsCloud Computing services are scalable, via dynamic provisioning of resources on a fine-grained, self-service basis near real-time, without users’ consideration for peal loads. This requirement is particularly important towards mobile cloud computing scenario. Mobile applications can be launched on the device or cloud, and can be migrated between them according to dynamic changes of the computing context or user preferences. Also, limited resource of mobile device will restrict application processing. Thus, elastic application model should be proposed to solve fundamental processing problemD.Security and PrivacyCloud computing users prove their identities with digital credentials, typically passwords and digital certificates. If an attacker could fake or steal these credentials, the cloud computing system will suffer from spoofing attacks. In mobile cloud computing, the problem is even severe because mobile devices often lack of computing power to execute sophisticated security algorithms. Moreover, it is difficult to enforce a standardized credential protection mechanism due to the variety of mobile devices [4].III.C ONCEPT MODEL AND A RCHITECTURE .In this section, we present concept model to analyze mobile cloud computing technology, and then provide several architecture model to organize Mobile Cloud Computing systems. A.Concept modelAs well known, cloud computing service can be divided into three types according to delivery manner: Infrastructure asa Service (IaaS), Platform as a Service (PaaS), Software as a Service (SaaS). However, Mobile Cloud Computing would not separate into these types. Mobile Cloud Computing focuses on the connection between client and cloud, which may differ from common features of cloud computing.In architectural considerations of creating next generation mobile applications, Jason H Christensen [5] proposal three component archetype: the combination of smart mobile device, REST based cloud computing, and context enablement. This three component model matches with transmission model of Mobile Cloud ---“Client-Connection-Cloud”.We can reconstruct concept model on vertical view, as shown in Figure.1. The left and right entities are respectively client and cloud. Between client side and cloud side there is “Transmission Channel” component. Upon this entity are “Resource Scheduling” and “Context Management” components, both of which occupy client and cloud sides. The prerequisite of this model is that: a) The client is context-aware;b) Cloud side should deliver elastic, on-demand service for client. Next, we explain three middle part of the model with down-top approach.Figure 1. Concept model of Mobile Cloud Computing1)Transmission ChannelTransmission channel refers to various wireless transport protocols. The wireless connection between client and cloud is double-edged sword for mobile cloud computing applications: For one thing, the weak transmission channels degrade performance of stable cloud service; for another, dynamic characters of connection produce various contexts, which trigger prosperous mobile applications.2)Resource SchedulingResource scheduling component address the schedule o resource, such as computing resource and storage resource. In this level, virtual machines will be introduced to handle of resource dispatch. Nevertheless, we can view this problem in another view. Resource may be stable but applications may transmit to other places. In mobile cloud computing scenario we often consider to decompose complex application and handle application with parallel methods. Usually, application partition and offloading may contribute to usage of mobile device. Partition and offloading approach will be studied in Section Ⅳ.3)Context ManagementContext Enabled features of mobile device allow us to ascertain additional information from the computing device itself without the need for explicit user input. Context Management module can track context parameters and adapt to modification of context conditions. This capability has enabled a number of new application spaces such as Location Based Services (LBS), spatial augmented reality (SAR), and explicit spatial contexts using Bluetooth or WiFi.Typically, context can be classified into two types:a)Spatial contextsSpatial contexts are contexts that are based on position, proximity. They allow context-aware applications to provide input for Location Based Service. For example, my iPhone can get location information and provide to Foursquare software, then I can play online games.b)Social contextsSocial contexts are contexts that have been explored in social network analysis threads. In the context of mobile computing these contexts are particular ones that out of inherent characters of mobile computing but encourage user to group interaction.Context management technology will be surveyed in Section Ⅴ.B.ArchitectureThe architecture of Mobile Cloud Computing refers to the organization of Mobile Cloud Computing systems. Generally, most researchers want to enhance capability of mobile devices with cloud technology. Also, some researchers explore the use of cloud computing to execute mobile applications in behalf of the device. Thus, architecture scheme contains two types: agent-client scheme and collaborated scheme.1)Agent-client schemeIn this scheme, cloud side provides overall resource management for mobile devices, to help to overcome limitations of mobile devices in particular of the processing power and data storage. As is shown in Figure 2, cloud side generate agent for each device. Mobile device communicatewith its agent to contact with other entities outside this domain.Figure 2. Agent-client architecture for Mobile Cloud ComputingMahadev Satyanarayanan [6] provided cloudlet-based, resource-rich, mobile computing. In this architecture, a mobile user exploits virtual machine technology to customize service software on a nearby cloudlet and then uses that service over a wireless LAN; the mobile device typically functions as a thin client with respect to the service. A cloudlet is decentralized and widely-dispersed Internet infrastructure whose compute cycles and storage resources can be leveraged by nearby mobile computers. The natural implementation is to extend Wi-Fi access points to include substantial processing, memory and persistent storage for use by associated mobile devices.Xinwen Zhang [7] built elastic applications which augment resource-constrained platforms. An elastic application can consist of one or more weblets, which function independently, but communicate with each other. When the application is launched, an elasticity manager running on the device monitors the resource requirements of the weblets of the application, and makes decisions where they should be launched. Computation intensive weblets usually strain the processors of mobile devices, therefore they can be launched on one or more platforms in the cloud; while user interface components (UI) or those needing extensive access to local data may be launched on the device.2)Collaborated schemeCollaborated schemes regard device as a part of cloud. This approach utilize remain resource of mobile device. The function of cloud server may be the controller and schedulerfor collaboration among devices.Figure 3. Collaborated architecture for Mobile Cloud CoputingHyrax [8] is a platform derived from Hadoop that supports cloud computing on Android smart phones. Hyrax allows client applications to conveniently utilize data and execute computing jobs on networks of smart phones and heterogeneous networks of phones and servers. By scaling with the number of devices and tolerating node departure, Hyrax allows applications to use distributed resources abstractly, oblivious to the physical nature of the cloud. In Hyrax, several traditional machines play the role of NameNode and JobTracker.Black and Edgar [9] demonstrated the feasibility and value of enabling mobile devices within a grid computing framework by implementing the BOINC client on an Apple iPhone. Work units are downloaded from a BOINC server and executed on the iPhone via a virtual machine emulating an x86 processor, and results are uploaded to the server. The world of mobiledevices brings renewed challenges to the problem of grid client design in the areas of network bandwidth, processor capability, storage, and energy consumption.IV.A PPLICATION PARTITION AND OFFLOADING Application partition and offloading technology play an important role for the implementation of elastic applications. Application partition decompose complex workload to atomic ones, thus can be processed concurrently. Offloading application can free burden of mobile devices and save their energy consumption.A.PartitionTo achieve seamless and transparent migration and offloading, each application should be partitioned into components. Application partition should consider resource consumption and data dependency.Ioana Giurgiu [10] el. proposed two-step approach to optimally partition an application between a mobile phone and a server. First, they abstract an application’s behavior as a data flow graph of several inter-connected software modules. Given this graph, in the second step, a partitioning algorithm finds the optimal cut that maximizes (or minimizes) a given objective function. They propose two types of partitioning algorithms: ALL and K-step. In the first case, the best partitioning is computed offline by considering different types of mobile phones and network conditions. In the second case, the partitioning is computed on-the-fly, when a phone connects to the server and specifies its resources and requirements. ALL fits the first scenario, while K-step the second one.Xun Luo [11] presented “Cloud-Mobile Convergence for Virtual Reality (CMCVR)” concept. In CMCVR, to take advantage of the better load balancing inherent in by-region application partitioning, the author proposed Hybrid Application Partitioning Strategy, also in two steps: The first stage breaks down the workload with the by-scale strategy; large workloads at high scale levels are further partitioned in the second stage which uses the by-region strategy. The partitioning process is completed when an optimized overall system performance is achieved.Byung-Gon and Petros [12] introduced the notion of dynamic partitioning of applications between weak devices and clouds and argue that it is the key to addressing heterogeneity problems. The author found that partitioning applications statically does not provide optimal user experience as more and more applications are used in diverse environments and inputs. So it is decision to demand particular purpose. The decision may be impacted not only by the application itself, but also by the expected workload and the execution conditions, such as network connectivity and CPU speeds of both weak and cloud devices. After formalizing the dynamic partitioning problem, and sketch how to construct a system that supports dynamic partitioning.B.OffloadingOffloading task from client to cloud can reduce energy consumption of mobile device [13]. The problem is the choice of offloading percent and methods. Should we put all applications to cloud?Byung-Gon and Petros [14] first introduced offloading execution from the smart phone to a computational infrastructure hosting a cloud of smart phone clones. The idea is simple: clone the entire set of data and applications from the smart-phone onto the cloud and selectively execute some operations on the clones, reintegrating the results back into the smart-phone. There are five types of augmentation, each of which uses special method to offloading. One can have multiple clones for the same smart-phone, clones pretending to be more powerful smart-phones, etc.Eduardo Cuervo [15] el. presented MAUI, a system that enables fine-grained energy-aware offload of mobile code to the infrastructure. It maximizes the potential for energy savings through fine-grained code offload while minimizing the changes required to applications. First, MAUI uses code portability to create two versions of a smart phone application, one of which runs locally on the smart phone and the other runs remotely in the infrastructure. Second, MAUI uses programming reflection combined with type safety to automatically identify the remote methods and extract only the program state needed by those methods. Third, MAUI profiles each method of an application and uses serialization to determine its network shipping costsV.C ONTEXT-AWARE S ERVICEIt is context that distinguishes mobile cloud computing from common concepts. Context leads to advent of various mobile applications. As mentioned in Section Ⅲ,contexts can be classified into two types, spatial contexts and social contexts. First we introduce common context management methods, and then discussmon context managementAndreas Klein [16] el. presented a framework for the use of context information for the Heterogeneous Access Management (HAM) provided by the Mobile Cloud as a service for the mobile terminals. A formal method assessing link quality based on available context information has been developed for triggering handover mechanisms. The proposed Context Management Architecture (CMA) is responsible for acquiring, processing, managing, and delivering context information. Context Quality Enabler (CQE) controls the provision of context information according to the requirements of the Mobile Cloud Controller. Finally, based on the outlined HAM concept, the author presented a context-aware radio network simulator (CORAS) that is able to model context availability, accuracy, and delay, thus enabling an evaluation of the impact of different levels of context relevance, confidence, and quality on simulation results.Hyun Jung La [17] presented a framework for enabling context-aware mobile services. The framework enables tasks of capturing context, determining what context-specific adaptation is needed, tailoring candidate services for the context, and running the adapted service. The net result of context-aware services is for consumers to receive better services which fit to the current context of the consumers.Aaron Beach [18] presented a vision of mobile-cloud computing in which context-aware services are organized and integrated by a Context-Aware Intention Compiler (CAIC). Run-time creation of these programs allows contextual information from a mobile phone and the environment to be integrated in real-time. Furthermore, the mobile device can look up context-aware services using a Contextual Lookup Service, which maps context and intention to the appropriate Context-Aware Intention Compiler. Use of the CAwbWeb framework allows mobile-cloud challenges to be divided into four major concerns: specifying intention, describing context, identifying appropriate actions, and efficient actuation of those actions.B.Spatial contexts servicePatrick Stuedi [19] el. presented WhereStore, a location-based data store for Smartphones interacting with the cloud. The key property of WhereStore is that it uses the phone's location history to determine what data to replicate locally. The main goal of caching cloud data on the phone is to decrease the overall data access latency and also reduce the probability of data becoming unavailable in periods of no connectivity. Furthermore, WhereStore is a shared resource for different applications and exchanges data with the cloud in batches, thus potentially reducing the overall energy consumption on the phone.Pelin Angin [20] el. proposed a mobile-cloud collaborative approach for context-aware navigation by exploiting the computational power of resources as well as location-specific resources available on the Internet. The author proposes an extensible system architecture that minimizes reliance on infrastructure, thus allowing for wide usability.C.Social contexts serviceDejan Kovachev [21] el. proposed Mobile Community Cloud Platform (MCCP) as a cloud computing system that can leverage the full potential of mobile community growth. Also, the author analyses the requirements of mobile communities, proposes a cloud computing model for mobile communities, and discusses the technical settings of this cloud infrastructure.Lan Zhang [22] el. designed and constructed a multi-hop networking system named MoNet based on WiFi, and a privacy-aware geo-social networking service. Also the author designs a distributed content sharing protocol which can significantly shorten the relay path, reduce conflicts and improve data persistence and availability. A role strategy is designed to encourage users to collaborate in the network. Furthermore, a key management and an authorization mechanism are developed to prevent some attacks and protect privacy.Eric Jung [23] el. proposed to exploit the potential of smart phones in proximity cooperatively, using their resources to reduce the demand on the cellular infrastructure. The author introduces RACE (Resource Aware Collaborative Execution), a Markov Decision Process (MDP) optimization framework that takes user profiles and user preferences to determine the degree of collaboration. Then RACE can enable the use of other mobile devices in the proximity as mobile data relays.VI.C ONCLUSIONThis paper surveys recent research activities on Mobile Cloud Computing. Mobile Cloud Computing aims to utilize cloud computing techniques for storage and processing of data on mobile devices, thereby reducing their limitations. Several problems would challenge the development, including intrinsic nature of mobile device and wireless connection. Then we proposal concept model for Mobile Cloud Computing systems and analyze typical architecture. After that, we discuss the detail of technology, application partition & offloading and context-aware services.A CKNOWLEDGMENTThis work is supported by the National Key project of Scientific and Technical Supporting Programs of China (Grant Nos.2008BAH24B04, 2008BAH21B03); the National Natural Science Foundation of China (Grant No.61072060); the Program of the Co-Construction with Beijing Municipal Commission of Education of China.R EFERENCES[1]Mobile Phone’s wikipedia. /wiki/Mobile_phone[2]Mobile Cloud Applications. ABI Research Report./research/1003385-Mobile+Cloud+Computing[3]Chetan S., Gautam Kumar, K. Dinesh, Mathew K., and Abhimanyu M.A.Cloud Computing for Mobile World. 2010; Available from: /projects/CCMW.pdf.[4]Sheng Xiao and Weibo Gong. Mobility Can Help: Protect User Identitywith Dynamic Credential. in Mobile Data Management (MDM), 2010 Eleventh International Conference on. 2010.[5]Jason H. Christensen, Using RESTful web-services and cloudcomputing to create next generation mobile applications, in Proceeding of the 24th ACM SIGPLAN conference companion on Object oriented programming systems languages and applications. 2009, ACM: Orlando, Florida, USA. p. 627-634.[6]M. Satyanarayanan, P. Bahl, R. Caceres, and N. Davies, The Case forVM-Based Cloudlets in Mobile Computing. Pervasive Computing, IEEE, 2009. 8(4):14-23.[7]Xinwen Zhang, Joshua Schiffman, Simon Gibbs, AnugeethaKunjithapatham, and Sangoh Jeong, Securing elastic applications on mobile devices for cloud computing, in Proceedings of the 2009 ACM workshop on Cloud computing security. 2009, ACM: Chicago, Illinois, USA. p. 127-134[8]EE Marinelli, Hyrax: Cloud Computing on Mobile Devices usingMapReduce. 2009, Carnegie Mellon University.[9]M. Black and W. Edgar. Exploring mobile devices as Grid resources:Using an x86 virtual machine to run BOINC on an iPhone. in Grid Computing, 2009 10th IEEE/ACM International Conference on. 2009. [10]Ioana Giurgiu, Oriana Riva, Dejan Juric, Ivan Krivulev, and GustavoAlonso, Calling the cloud: enabling mobile phones as interfaces to cloud applications, in Proceedings of the 10th ACM/IFIP/USENIX International Conference on Middleware. 2009, Springer-Verlag New York, Inc.: Urbanna, Illinois. p. 1-20.[11]Luo Xun. From Augmented Reality to Augmented Computing: A Lookat Cloud-Mobile Convergence. in Ubiquitous Virtual Reality, 2009.ISUVR '09. International Symposium on. 2009[12]Byung-Gon Chun and Petros Maniatis, Dynamically partitioningapplications between weak devices and clouds, in Proceedings of the 1st ACM Workshop on Mobile Cloud Computing & Services: Social Networks and Beyond. 2010, ACM: San Francisco, California. p. 1-5.[13]K. Kumar and Lu Yung-Hsiang, Cloud Computing for Mobile Users:Can Offloading Computation Save Energy? Computer, 2010. 43(4):51-56[14]Byung-Gon Chun and Petros Maniatis, Augmented smartphoneapplications through clone cloud execution, in Proceedings of the 12th conference on Hot topics in operating systems (HotOS). 2009[15]Eduardo Cuervo, Aruna Balasubramanian, Dae-ki Cho, Alec Wolman,Stefan Saroiu, Ranveer Chandra, and Paramvir Bahl, MAUI: making smartphones last longer with code offload, in Proceedings of the 8th international conference on Mobile systems, applications, and services.2010, ACM: San Francisco, California, USA. p. 49-62.[16]Andreas Klein, Christian Mannweiler, Joerg Schneider, and Hans D.Schotten. Access Schemes for Mobile Cloud Computing. in Mobile Data Management (MDM), 2010 Eleventh International Conference on. 2010.[17]La Hyun Jung and Kim Soo Dong. A Conceptual Framework forProvisioning Context-aware Mobile Cloud Services. in Cloud Computing (CLOUD), 2010 IEEE 3rd International Conference on.2010.[18]Aaron Beach, Mike Gartrell, Richard Han, and Shivakant Mishra.CAwbWeb: Towards a Standardized Programming Framework to Enable a Context-Aware Web. Technical Report CU-CS-1063-10, March 2010. [19]Patrick Stuedi, Iqbal Mohomed, and Doug Terry, WhereStore: location-based data storage for mobile devices interacting with the cloud, in Proceedings of the 1st ACM Workshop on Mobile Cloud Computing & Services: Social Networks and Beyond. 2010[20]Pelin Angin, Bharat Bhargava, and Sumi Helal. A Mobile-CloudCollaborative Traffic Lights Detector for Blind Navigation. in Mobile Data Management (MDM), 2010 Eleventh International Conference on.2010.[21]Dejan Kovachev, Dominik Renzel, Ralf Klamma, and Yiwei Cao.Mobile Community Cloud Computing: Emerges and Evolves. in Mobile Data Management (MDM), 2010 Eleventh International Conference on.2010[22]Lan Zhang, Xuan Ding, Zhiguo Wan, Ming Gu, and Xiang-Yang Li,WiFace: a secure geosocial networking system using WiFi-based multi-hop MANET, in Proceedings of the 1st ACM Workshop on Mobile Cloud Computing & Services: Social Networks and Beyond. 2010 [23]Eric Jung, Yichuan Wang, Iuri Prilepov, Frank Maker, Xin Liu, andVenkatesh Akella, User-profile-driven collaborative bandwidth sharing on mobile phones, in Proceedings of the 1st ACM Workshop on Mobile Cloud Computing & Services: Social Networks and Beyond. 2010。

《国际交流英语(yīnɡ yǔ)》(英才(yīngcái)学院)课程(kèchéng)教学大纲课程(kèchéng)编码：GC15000600课程名称：国际交流英语(yīnɡ yǔ)课程英文名称：English for International Communication总学时：40 讲课学时：32 实验学时：0 上机学时：0 辅导学时：8学分：1.5开课单位：外国语学院大学英语第三教学部授课对象：英才学院学生开课学期：2秋先修课程：综合英语、高级英语主要教材及参考书：教材：周之南、韩晓蕙.《国际交流英语》. 哈尔滨: 哈尔滨工业大学出版社.2012.主要参考书：1. Joyce Slayton Mitchell.《美国本科留学指南》. 北京：群言出版社. 2010.2. 贾卫国.《国际学术交流英语》. 北京：外语教学与研究出版社.2008.3. Robert Day. 《How to Write and Publish a Scientific Paper》. 北京：北京大学出版社. 2006.4. 从丛、李咏燕.《学术交流英语教程》. 南京：南京大学出版社. 2003.5. 冯幼民.《高级英文写作教程》. 北京：北京大学出版社. 2002.一、课程教学目的《国际交流英语》是面向英才学院二年级学生开设的一门英语必修课程。

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