第一篇:IEEE会议文章投稿格式
Author Guidelines for 8.5x11-inch Proceedings Manuscripts
Author(s)Name(s)Author Affiliation(s)
Abstract
The abstract is to be in fully-justified italicized text, at the top of the left-hand column as it is here, below the author information.Use the word “Abstract” as the title, in 12-point Times, boldface type, centered relative to the column, initially capitalized.The abstract is to be in 10-point, single-spaced type, and may be up to 3 in.(7.62 cm)long.Leave two blank lines after the abstract, then begin the main text.All manuscripts must be in English.Note that an “electronic” copy of your Abstract— including the conference name, paper title, keywords, author names, addresses, and affiliations—must be sent to the IEEE Computer Society Press Abstracts Department.The electronic copy is to be an ASCII text file submitted via e-mail to the Abstracts Internet address indicated in the proceedings instruction letter you receive from your production editor.1.Introduction
These guidelines include complete descriptions of the fonts, spacing, and related information for producing your proceedings manuscripts.Please follow them and if you have any questions, direct them to the production editor in charge of your proceedings at the IEEE Computer Society Press: Phone(714)821-8380 or Fax(714)761-1784.2.Formatting your paper
All printed material, including text, illustrations, and charts, must be kept within a print area of 6-7/8 inches(17.5 cm)wide by 8-7/8 inches(22.54 cm)high.Do not write or print anything outside the print area.All text must be in a two-column format.Columns are to be 3-1/4 inches(8.25 cm)wide, with a 5/16 inch(0.8 cm)space between them.Text must be fully justified.A format sheet with the margins and placement guides is available in both Word and PDF files as
The main title(on the first page)should begin 1-3/8 inches(3.49 cm)from the top edge of the page, centered, and in Times 14-point, boldface type.Capitalize the first letter of nouns, pronouns, verbs, adjectives, and adverbs;do not capitalize articles, coordinate conjunctions, or prepositions(unless the title begins with such a word).Leave two blank lines after the title.4.Author name(s)and affiliation(s)
Author names and affiliations are to be centered beneath the title and printed in Times 12-point, non-boldface type.Multiple authos may be shown in a two-or three-column format, with their affiliations below their respective names.Affiliations are centered below each author name, italicized, not bold.Include e-mail addresses if possible.Follow the author information by two blank lines before main text.5.Second and following pages
The second and following pages should begin 1.0 inch(2.54 cm)from the top edge.On all pages, the bottom margin should be 1-1/8 inches(2.86 cm)from the bottom edge of the page for 8.5 x 11-inch paper;for A4 paper, approximately 1-5/8 inches(4.13 cm)from the bottom edge of the page.6.Type-style and fonts
Wherever Times is specified, Times Roman, or New Times Roman may be used.If neither is available on your word processor, please use the font closest in appearance to Times that you have access to.Please avoid using bit-mapped fonts if possible.True-Type 1 fonts are preferred.7.Main text
Type your main text in 10-point Times, single-spaced.Do not use double-spacing.All paragraphs should be indented 1 pica(approximately 1/6-or 0.17-inch or 0.422 cm).Be sure your text is fully justified—that is, flush left
and flush right.Please do not place any additional blank lines between paragraphs.Figure and table captions should be 10-point Helvetica(or a similar sans-serif font), boldface.Callouts should be 9-point Helvetica, non-boldface.Initially capitalize only the first word of each figure caption and table title.Figures and tables must be numbered separately.For example: “Figure 1.Database contexts”, “Table 1.Input data”.Figure captions are to be below the figures.Table titles are to be centered above the tables.8.First-order headings
For example, “1.Introduction”, should be Times 12-point boldface, initially capitalized, flush left, with one blank line before, and one blank line after.Use a period(“.”)after the heading number, not a colon.8.1.Second-order headings
As in this heading, they should be Times 11-point boldface, initially capitalized, flush left, with one blank line before, and one after.8.1.1.Third-order headings.Third-order headings, as in this paragraph, are discouraged.However, if you must use them, use 10-point Times, boldface, initially capitalized, flush left, preceded by one blank line, followed by a period and your text on the same line.9.Footnotes
Use footnotes sparingly(or not at all!)and place them at the bottom of the column on the page on which they are referenced.Use Times 8-point type, single-spaced.To help your readers, avoid using footnotes altogether and include necessary peripheral observations in the text(within parentheses, if you prefer, as in this sentence).10.References
List and number all bibliographical references in 9-point Times, single-spaced, at the end of your paper.When referenced in the text, enclose the citation number in square brackets, for example [1].Where appropriate, include the name(s)of editors of referenced books.[1] A.B.Smith, C.D.Jones, and E.F.Roberts, “Article Title”, Journal, Publisher, Location, Date, pp.1-10.[2] Jones, C.D., A.B.Smith, and E.F.Roberts, Book Title, Publisher, Location, Date.11.Copyright forms and reprint orders
You must include your fully-completed, signed IEEE copyright release form when you submit your paper.We must have this form before your paper can be published in the proceedings.The copyright form is available either as a Word file,
第二篇:IEEE 旗舰会议文章分类总结 2012-2014
Topics classification
1.Data 1)Storage
1)“MAC finite buffer impact on the performance of cluster-tree based WSNs”
ICC 2013 2)“In-network storage for virtual broker-based publish/subscribe in WSNs” PIMRC 2012 3)“An energy-efficient data storage scheme in wireless sensor networks”
NOMS 2012
4)“Energy-Efficient Distributed Data Storage for Wireless Sensor Networks Based on Compressed Sensing and Network Coding”
TWC 2013
2)Data Collection 1)“The design and implementation of a general WSN gateway for data collection” WCNC 2013 2)”Energy-efficient data collection in WSN: A sink-oriented dynamic backbone“
ICC 2012 3)”Distributed data collection and its capacity in asynchronous wireless sensor networks“
INFOCOM 2012 4)”Application-aware data collection in wireless sensor networks“
INFOCOM 2013 5)”Overall cost minimization for data aggregation in energy-constrained wireless sensor networks“
ICC 2013 6)”OWER-MDG: A novel energy replenishment and data gathering mechanism in wireless rechargeable sensor networks“
GLOBECOM 2012 7)”Low-latency SINR-based data gathering in wireless sensor networks“
INFOCOM 2013 8)”Compressed Data Aggregation: Energy-Efficient and High-Fidelity Data Collection“
TON 2013 9)”Mobile data gathering with wireless energy replenishment in rechargeable sensor networks“
INFOCOM 2013 10)”Snapshot/continuous data collection capacity for large-scale probabilistic wireless sensor networks“
INFOCOM 2012 11)”Information Theoretical Optimization Gains in Energy Adaptive Data Gathering and Relaying in Cognitive Radio Sensor Networks“
TWC 2012 12)”Minimizing data collection latency in wireless sensor network with multiple mobile elements“
INFOCOM 2012 13)”Capacity and Delay Analysis for Data Gathering with Compressive Sensing in Wireless Sensor Networks“
TWC 2013 14)”Distributed Data Collection in Large-Scale Asynchronous Wireless Sensor Networks Under the Generalized Physical Interference Model“
TON 2013 15)”A cross-layer approach for context-aware data gathering in wireless sensor networks“
GLOBECOM 2012 16)”Semi-structured and unstructured data aggregation scheduling in wireless sensor networks“
INFOCOM 2012 17)”Controlled data collection of mini-sinks for maximizing packet delivery ratio and throughput using multiple paths in wireless sensor networks“
PIMRC 2012 18)”Delay minimum data collection in the low-duty-cycle wireless sensor networks“
GLOBECOM 2012 19)”A Slepian-Wolf coding based energy-efficient clustering algorithm for data aggregation in wireless sensor networks“
ICC 2012 20)”A distributed optimal framework for mobile data gathering with concurrent data uploading in wireless sensor networks“
INFOCOM 2012 21)”Applying the Chinese Remainder Theorem to Data Aggregation in Wireless Sensor Networks“ CL 2013 22)”Maximizing Quality of Aggregation in Delay-Constrained Wireless Sensor Networks“
CL 2013 3)Communication 1)”Modeling and estimation of partially observed WLAN activity for cognitive WSNs“ WCNC 2012 2)”Cognitive transmission based on data priority classification in WSNs for smart grid“
GLOBECOM 2012 3)”Cooperative closed-loop techniques for optimized transmission applied to a WSN in a power substation“ ICSGC 2012 4)”SDTP+: Securing a distributed transport protocol for WSNs using Merkle trees and hash chains“
ICC 2013 5)”Dynamic flooding time synchronisation protocol for WSNs“
GLOBECOM 2012 6)”Algorithm Design for Data Communications in Duty-Cycled Wireless Sensor Networks: A Survey“
ICM 2013 7)”Energy-efficient packet forwarding through network partitioning in wireless sensor networks“
PIMRC 2012 8)”Secure Data Discovery and Dissemination based on Hash Tree for Wireless Sensor Networks“
TWC 2013 9)”Data delivery scheme for wireless sensor network powered by RF energy harvesting“ WCNC 2013
10)”A privacy-aware communication scheme in advanced metering infrastructure(AMI)systems“
WCNC 2013 4)Data processing 1)”Data-centric programming environment for cooperative applications in WSN“ IM 2013
2)”PARED: A testbed with parallel reprogramming and multi-channel debugging for WSNs“ WCNC 2013 3)”Power-efficient hierarchical data aggregation using compressive sensing in WSNs“ ICC 2013 4)”Sensing, Compression, and Recovery for WSNs: Sparse Signal Modeling and Monitoring Framework“ TWC 2012 5)”Adaptive buffering scheme to reduce packet loss on densely connected WSN with mobile sink“
CCNC 2012 6)”Phenomena discovery in WSNs: A compressive sensing based approach“
ICC 2013 7)”RAID the WSN: Packet-based reliable cooperative diversity“ ICC 2012 8)”EasiPLED: Discriminating the causes of packet losses and errors in indoor WSNs“
GLOBECOM 2012 9)”On the benefit of using tight frames for robust data transmission and compressive data gathering in wireless sensor networks“
ICC 2012 10)”Harmonic quorum systems: Data management in 2D/3D wireless sensor networks with holes“
SECON 2012
11)”Compressive sensing based on local regional data in wireless sensor networks“
WCNC 2012
12)”An efficient data acquisition model for urban sensor networks“ NOMS 2012
13)”A Frechet Mean Approach for Compressive Sensing Date Acquisition and Reconstruction in Wireless Sensor Networks“
TWC 2012
14)”A novel reliable data dissemination protocol for real-time data in wireless sensor networks“
WCNC 2012
2.MAC 1)”A low energy consumption MAC protocol for WSN“ ICC 2012 2)”Performance evaluation of receiver based MAC using configurable framework in WSNs“
WCNC 2013 3)”E-MAC: An event-driven data aggregation MAC protocol for wireless sensor networks“
CCNC 2012 3.Service ”Aggregating user rating and service context for WSN service ranking“ GLOBECOM 2012
4.Routing 1)”Fast and power-efficient hardware implementation of a routing scheme for WSNs“ WCNC 2012 2)”HYMN: A Novel Hybrid Multi-Hop Routing Algorithm to Improve the Longevity of WSNs“
TWC 2012 3)”CEEC: Centralized energy efficient clustering a new routing protocol for WSNs“
SECON 2012
5.Energy 1)”Using hardware-based forward error correction to reduce the overall energy consumption of WSNs“ WCNC 2012 2)”Lifetime evaluation of cooperative OFDM WSNs“
WCNC 2012 3)”Extending the lifetime of a WSN by partial covers“
ICC 2013 4)”Energy-harvesting WSNs for structural health monitoring of underground train tunnels“
INFOCOM 2013 6.Security 1)”Improving reliability and efficiency of communications in WSNs under high traffic demand“
WCNC 2013
2)”Performance evaluation of security routing strategies to avoid DoS attacks in WSN“
GLOBECOM 2012
3)”Intruder tracking in WSNs using binary detection sensors and mobile sinks“
WCNC 2012
4)”Detecting DoS attacks in WSN based on clustering technique“ WCNC 2013 5)”PKC Based Broadcast Authentication using Signature Amortization for WSNs“ TWC 2012
7.Others 1)”System and application knowledge based scheduling of multiple applications in a WSN“ ICC 2012
2)”Cooperative task assignment for distributed deployment of applications in WSNs“ ICC 2013
3)”Towards a wireless sensor network platform for the internet of things sprouts WSN platform“
ICC 2012
4)”Fault tolerant target localization and tracking in binary WSNs using sensor health state estimation“
ICC 2013
5)”EDR2: A sink failure resilient approach for WSNs“
ICC 2012
6)”A high quality event capture scheme for WSN-based structural health monitoring“
GLOBECOM 2012
7)”Particle swarm optimization based approach to solve the multiple sink placement problem in WSNs“
ICC 2012
8)”ERCD: An energy-efficient clone detection protocol in WSNs“ INFOCOM 2013
9)”Fault tolerant complex event detection in WSNs: A case study in structural health monitoring“
INFOCOM 2013
10)”Impact of a sleep schedule on the AODV convergence time in WSNs“
INFOCOM 2013 11)”Reducing the observation error in a WSN through a consensus-based subspace projection" WCNC 2013
第三篇:安全检修投稿文章
安全检修投稿
2013的检修工作即将开始,检修期间的检修安全如何保证,如何避免安全事故的发生,真正做到“安全检修”,需要我们每位检修参与员工认真去思考。
落实好本职岗位的安全生产责任制。各部门、车间、班组是否将上级下达的安全文件、规章制度传达给了车间员工;检修前是否组织好了车间员工、外委施工作业人员的安全教育,真正提高检维修人员的安全检修及防护技能;每天对检修项目安全措施落实情况是否做到心中有数,检修作业期间是否亲自进行督促检查,保证施工现场的安全可靠。我们只有树立“安全检修、以人为本”的安全理念,才能真正俯下身子做事,把各自岗位的安全职责落实下去。
做好检修期间的安全培训。加大培训力度,提高培训质量,加大考核力度,特别要加强“特种作业人员”、“外委施工人员”以及班组长的安全检修培训工作,保证素质过关、技术过硬、持证上岗;对操作岗位员工要由有经验的维修人员带领,以师带徒、切实起到传帮带的作用,提高检维修人员的安全检修操作技能;检修前还应组织学习、反思相关事故案例,增强全体员工的事故防范意识,提高安全防范素质和自我防护意识。
检修期间还应做好各种隐患的排查工作。防患于未然,严把现场检修安全关,要把无事当有事,无中找有,小事当大事,小题大做。排查隐患很重要的是要细致,一定要有细之又细、慎之又慎。通过采取细致、全面的方法和手段及时发现检修现场的安全隐患,并采取有效的安全措施对隐患进行治理,才能避免检修过程中安全事故的发生。
关键检修过程、关键检修人员应关键抓。哪些是关键的检修过程、哪些是关键检修作业人员,我们现场安全管理人员,一定要头脑清醒,做到心里有数。在检修作业实施前做好安全及技术交底工作,告知检修作业人员什么可以做,什么不可以做,决不能违章指挥、杜绝违章作业;再就是我们的新工人、老工人、操作工、检修工,新员工、操作工在检修过程中安全防护意识和安全检修操作技能低,存在冒险主义;老工人、检修工凭着老经验、***惯会出现违章指挥和习惯性违章作业,所以,要对特殊性的人群给予特殊性的指导和教育。
总之,在检修期间我们应实实在在的把安全放在第一位。在检修作业过程中我们每一位员工不能图侥幸、怕麻烦,要严格按照标准、规范去做,切切实实地抓好自己的安全。安全就是生命,我们要将“安全检修”理念渗透进我们每一名员工心里,使大家真正认识到,抓安全是为了自己,是为了自己家庭幸福。明确为什么要这么做,怎么做才是安全的,促使员工发自内心地提高安全检修、自我防护意识。
“安全检修”并不只是一句口号,更是指导我们检修工作的标准,是我们检修期间要落在实处的工作,我们每一位检修参与员工应做到认知高、工作细、落实严,确保公司2013年检修工作圆满结束。
第四篇:会议投稿
一种新型的超声联合微泡治疗肝创伤的止血方法
赵晓晨 李露 李陶 吴盛正 赵阳 刘青 钟渝 刘政
第三军医大学第二附属医院超声科
目的:探索肝脏创伤后出血,用一种新型超声联合微泡产生空化作用止血的实验研究。
方法:止血治疗使用脉冲式超声空化治疗仪,治疗头频率831 kHz,峰值负压4.3 MPa,平均声强0.4 W/cm2。20只新西兰大白兔开腹后建立肝脏创伤模型,实验兔随机分为3组:治疗组(n=8)、单纯超声组(n=6)、假照组(n=6)。治疗组治疗同时联合静脉注射微泡,单纯超声组及假照组作为对照组,只进行单纯超声和假照治疗。肝创伤模型建立后收集初始出血速度,出血视觉评分和10分钟出血量作为止血疗效的评价,超声造影评价肝脏血流灌注情况。三组9只新西兰大白兔实验完后立即取治疗区域肝组织进行组织学检查。
结果:统计结果显示三组初始出血速度基本一致,治疗组(0.10±0.08ML/s)、单纯超声组(0.12±0.04 ML/s)、假照组(0.12±0.06 ML/s)。治疗组兔肝创伤切口治疗2分钟后出血立即停止,但在单纯超声组或假照组治疗后切口继续出血。视觉评分和10分钟出血量统计结果(P* <0.01)显示治疗组相比对照组明显下降,治疗组两组数据为(0.38±0.52*、1.83±1.43*ML);单纯超声组(3.67±0.52*、12.21±5.13*ML);假照组(3.83±0.41*、11.02±3.56*ML)。组织学检查光镜下可见肝细胞弥漫性混浊肿胀,挤压肝窦及窦状间隙;门静脉周围出血、血肿形成,从而到达止血效果。
结论:超声联合微泡为肝脏创伤提供一种简单、新型的止血方法。
Objectives: To explore the haemostatic effects of microbubble-enhanced ultrasound(MEUS)at a very low acoustic intensity on the bleeding liver of rabbits.Methods: Liver incisions made on 20 rabbits were treated with a pulsed therapeutic ultrasound transducer.The transducer was operated at 831 KHz with an acoustic intensity of 0.4 W/cm2.The treatment was coordinated with intravenous injection of microbubbles.Ultrasound only and sham treatment served as the controls.Visual bleeding score and 10-min bleeding volume were evaluated for haemostatic efficacy.Contrast-enhanced ultrasound(CEUS)was performed to assess the liver perfusion.Nine treated livers were harvested f or acute histological examination.Results: Regarding the bleeding incisions made on rabbit livers, the haemorrhage stopped immediately after 2 min of MEUS treatment but bleeding continued in the controls treated by ultrasound or microbubble injection alone.The bleeding scores and the 10-min haemorrhagic volumes dropped significantly in the MEUS group compared with those of the controls(p < 0.01).The mechanism of MEUS haemostasis appears to involve the extensive swelling of hepatocytes and the haemorrhage of the portal area, which formed a joint compression on the regional liver circulation.Conclusions: Low acoustic intensity MEUS might provide a novel method for liver haemostasis.
第五篇:IEEE参考文献格式
IEEE参考文献格式
由于国外期刊参考文献与国内参考文献的格式有很大区别,其中最常用的参考文献为会议论文、书籍、期刊文献,所以特别在此记录说明,方便以后使用。
会议论文(Published Conference Proceedings style)
[1] 作者,“文章名字,”会议名称,地点,年份,页码
[1] S.P.Bingulac, “On the compatibility of adaptive controllers ,” in Proc.4th Annu.Allerton Conf.Circuits and Systems Theory, New York, 1994, pp.8–16.书籍(Book style).[2] 作者,书籍名称,出版地,年份,页码
[2] W.-K.Chen, Linear Networks and Systems Belmont, CA: Wadsworth, 1993, pp.123-135.期刊杂志(Periodical style)
[3] 作者,“文章名字,”期刊名,卷数,页码,月份,年份
[3] J.U.Duncombe, “Infrared navigation-Part I: An assessment of feasibility ,” IEEE Trans.Electron Devices, vol.ED-11, pp.34-39, Jan.1959.