Full List of Publications

AASHTO Publications CatalogAASHTOPublicationsCatalogAASHTO publishes numerous technical standards and guidelines through thework of the association's technical committees, whose members are comprised ofrepresentatives from the state departments of transportation, the nation's transportation experts. AASHTO standards and guidelines are utilized by transportation agenciesacross the nation and worldwide.This catalog features AASHTO publications related to the design of highways andstreets.Click here to visit the Design & Traffic section on the AASHTO Store.Click here to download the full AASHTO Publications Catalog.2AASHTO DESIGN & TRAFFIC CATALOGORDER PUBLICATIONS | Online : https:// |Phone: 800-231-3475Recommended Procedures for the Safety Performance Evaluation of Highway Features . 2011. 356 pp.PDF DOWNLOAD Code: RSDG-4-UL | List Price: $267 | Member Price: $198PAPERBACK Code: RSDG-4 | List Price: $334 | Member Price: $248PAPERBACK & PDF COMBO Code: RSDG-4-PUL | List Price: $468 | Member Price: $347PAPERBACK Code: VLVLR-2 | List Price: $169 | Member Price: $129PAPERBACK & PDF COMBO Code: VLVLR-2-PUL | List Price: $236 | Member Price: $175ROADWAY LIGHTING DESIGN GUIDE, 7TH EDITIONItem Code: GL-7This guide reflects current practices in roadway lighting. It provides a general overview of lightingsystems from the point of view of state transportation departments and recommends minimum designparameters. It may be used by agencies to warrant and design roadway lighting systems and can beincorporated into their own roadway lighting policies. Agency-specific policy may also include types oflighting equipment and technologies, lighting calculation preferences, or maintenance issues.2018. 89 pp.PDF DOWNLOAD Code: GL-7-UL | List Price: $68 | Member Price: $504AASHTO DESIGN & TRAFFIC CATALOGA GUIDE FOR ACHIEVING FLEXIBILITY IN HIGHWAY DESIGN, 1ST EDITION Item Code: FHD-1This guide shows highway designers how to think flexibly, recognize the many choices and optionsthey have, and arrive at the best solution for the particular situation or context. It represents a major step toward institutionalizing Context Sensitive Solutions into state transportation departments and other agencies charged with transportation project development.2004. 138 pp.PDF DOWNLOAD Code: FHD-1-UL | List Price: $30 | Member Price: $22PAPERBACKCode: FHD-1 | List Price: $37 | Member Price: $28PAPERBACK & PDF COMBO Code: FHD-1-PUL | List Price: $52 | Member Price: $39A POLICY ON DESIGN STANDARDS —INTERSTATE SYSTEM, 6TH EDITION Item Code: DS-6These standards reflect the minimum standards that apply to Interstate highway segments constructed on new right-of-way and segments undergoing reconstruction along existing right-of-way. These standards, which include changes based on research and practice since the previous 2005 edition, are designed for use with A Policy on Geometric Design of Highways and Streets (the “Green Book ”) 2016. 12 pp.PDF DOWNLOAD Code: DS-6-UL | List Price: $15 | Member Price: $11 GUIDE FOR THE DEVELOPMENT OF BICYCLE FACILITIES, 4TH EDITION Item Code: GBF-4This guide provides information on how to accommodate bicycle travel and operations in most riding environments. It presents sound guidelines that result in facilities that meet the needs of bicyclists and other highway users. Sufficient flexibility is permitted to encourage designs that are sensitive to local context and incorporate the needs of bicyclists, pedestrians, and motorists, however, suggested minimum dimensions are provided. 2012. 200 pp.PDF DOWNLOAD Code: GBF-4-UL | List Price: $178 | Member Price: $132PAPERBACK Code: GBF-4 | List Price: $223 | Member Price: $165PAPERBACK & PDF COMBO Code: GBF-4-PUL | List Price: $312 | Member Price: $231 GUIDE FOR THE PLANNING, DESIGN, AND OPERATION OF PEDESTRIAN FACILITIES, 2ND EDITION Item Code: GPF-2This guide provides guidance on the planning, design, and operation of pedestrian facilities along streets and highways. Specifically, the guide focuses on identifying effective measures for accommodating pedestrians on public rights-of-way. Appropriate methods for accommodating pedestrians, which vary among roadway and facility types, are described in this guide. The primary audiences for this manual are planners, roadway designers, and transportation engineers, whether at the state or local level, the majority of whom make decisions on a daily basis that affect pedestrians. This guide also recognizes the profound effect that land use planning and site design have on pedestrian mobility and addresses these topics, as well. 2021. 232 pp.PDF DOWNLOAD Code: GPF-2-UL | List Price: $186 | Member Price: $138PAPERBACK Code: GPF-2 | List Price: $233 | Member Price: $173PAPERBACK & PDF COMBO Code: GPF-2-PUL | List Price: $326 | Member Price: $242 5-USER PDF DOWNLOAD Code: GPF-2-IP5 | List Price: $792 | Member Price: $58710-USER PDF DOWNLOAD Code: GPF-2-IP10 | List Price: $1,397 | Member Price: $1,035HIGHWAY AND STREET DESIGN (CONT'D)5ORDER PUBLICATIONS | Online : https:// | Phone : 800-231-3475GUIDE FOR GEOMETRIC DESIGN OF TRANSIT FACILITIES ON HIGHWAYSAND STREETS, 1ST EDITION Item Code: TVF-1This guide provides a comprehensive reference of current practice in the geometric design of transit facilities on streets and highways, including local buses, express buses, and bus rapid transit operatingin mixed traffic, bus lanes, and high-occupancy vehicle lanes, as well as bus-only roads within street and freeway environments. It also covers streetcars and LRT running in mixed traffic and transit lanes, andwithin medians along arterial roadways. These guidelines are based on a review of relevant AASHTO,TRB, and ITE documents, as well as design reports provided by various transit agencies. They aredesigned for use by public agencies, practitioners, and developers in need of basic information aboutplanning, locating, sizing, designing, and implementing transit facilities along roadways. 2014. 436 pp.PDF DOWNLOAD Code: TVF-1-UL | List Price: $208 | Member Price: $154PAPERBACK Code: TVF-1 | List Price: $260 | Member Price: $193PAPERBACK & PDF COMBO Code: TVF-1-PUL | List Price: $364 | Member Price: $270GUIDE FOR PARK-AND-RIDE FACILITIES, 2ND EDITIONItem Code: GPRF-2This guide provides a general knowledge of the park-and-ride planning and design process. Applicablelocal ordinances, design requirements, and building codes must be consulted for their effect on theplanning and design process. Local data resources, development patterns, and transit networks maypresent unique opportunities for park-and-ride implementation and should be explored. 2004. 152 pp.PDF DOWNLOAD Code: GPRF-2-UL | List Price: $30 | Member Price: $22GUIDE FOR HIGH-OCCUPANCY VEHICLE (HOV) FACILITIES, 3RD EDITIONItem Code: GHOV-3This guide suggests methods and designs for dedicated facilities to encourage greater use of existingtransportation systems, such as increased use of public transit (primarily buses), carpools, vanpools, orother ridesharing modes. Guidance is given for planning and design of preferential treatment for high-occupancy vehicles. 2004. 218 pp.PDF DOWNLOAD Code: GHOV-3-UL | List Price: $30 | Member Price: $22TRANSIT FACILITIES6AASHTO DESIGN & TRAFFIC CATALOGPAPERBACK Code: MUTCD-10 | List Price: $75 | Member Price: $75AASHTO GUIDELINES FOR SUPPLEMENTAL GUIDE SIGNING, 5TH EDITION Item Code: GSGLC-5These guidelines were developed to assist state DOTs and transportation agencies in selecting the most appropriate traffic generators for display on freeway and expressway supplemental guide signs. They provide a basis for these agencies to develop individual state policies, which consider local needs, customs, and legal requirements. The guidelines are incorporated by reference in the MUTCD, which recommends guidelines for developing appropriate policies on supplemental guide signs for traffic generators. 2016. 11 pp.PDF DOWNLOAD Code: GSGLC-5-UL | List Price: $19 | Member Price: $14HIGHWAY DRAINAGE GUIDELINES, 4TH EDITION Item Code: HDG-4These guidelines provide a consolidated overview of highway hydraulic design and discuss possible hydrology problems. 2007. 1,155 pp.PDF DOWNLOAD Code: HDG-4-UL | List Price: $30 | Member Price: $22AASHTO DRAINAGE MANUAL, CD-ROM Item Code: ADM-1-CD Superseding AASHTO ’s 2005 Model Drainage Manual , the AASHTO Drainage Manual provides hydraulics engineers with practical working guidelines. Volume One, Policy, considers examples for drainage design policies, criteria, and standards. Volume Two, Procedures, discusses hydrologic and hydraulic design procedures that are frequently used by highway hydraulics engineers and includes step-by-step procedures and design examples that can be worked by hand or solved with public domain software. This CD-ROM includes a searchable PDF of both volumes, a glossary, and Microsoft Word files of individual chapters that any Federal, State, or local agency can use to produce its own customized drainage policy or procedure manual. 2014.CD-ROM Code: ADM-1-CD | List Price: $178 | Member Price: $132TRAFFIC CONTROL DEVICES DRAINAGE7ORDER PUBLICATIONS | Online : https:// | Phone : 800-231-3475GUIDELINES FOR VALUE ENGINEERING, 4TH EDITION Item Code: VE-4Value Engineering (VE) is a function-oriented technique that has proven to be an effective management tool for achieving improved design, construction, and cost-effectiveness in various transportation program elements. Data collected by the Federal Highway Administration (FHWA)indicates that the return on investment can approach or exceed 100:1. These guidelines recognize the need for the prudent use of resources and revenues, while providing a quality transportation program.States that have active VE programs have realized additional benefits beyond design improvementsand cost savings. 2017. 38 pp.PDF DOWNLOAD Code: VE-4-UL | List Price: $30 | Member Price: $22AASHTO GUIDE FOR DESIGN-BUILD PROCUREMENT, 1ST EDITIONItem Code: DBP-1This guide provides state transportation departments with strategies and methods for successfuldesign-build implementation, including the preparation of requests for qualifications (RFQ), requestsfor proposals (RFP), and the selection of a qualified proposer. 2008. 204 pp.PDF DOWNLOAD Code: DBP-1-UL | List Price: $45 | Member Price: $33PRACTICAL GUIDE TO COST ESTIMATING, 1ST EDITIONItem Code: EST-1This guide provides information to those charged with developing cost estimates and managing theestimating process. 2013. 214 pp.PDF DOWNLOAD Code: EST-1-UL | List Price: $112 | Member Price: $83PAPERBACK Code: EST-1 | List Price: $140 | Member Price: $104PAPERBACK & PDF COMBO Code: EST-1-PUL | List Price: $196 | Member Price: $145AASHTO GUIDE FOR CONSULTANT CONTRACTING, 1ST EDITIONItem Code: GCC-1This guide summarizes the results of a questionnaire that was developed for state and consultantpractitioners in order to assess current practices. 2008. 128 pp.PDF DOWNLOAD Code: GCC-1-UL List Price: $59 | Member Price: $44.PROJECT MANAGEMENTThe online AASHTO Store is your one-stop destination to find information about AASHTO publications—and purchase them. When you visit the AASHTO Store, you’ll be able to—Purchase AASHTO publications in all available formats; Find detailed publication descriptions, tables of contents, and information about published interim revisions; Download lists of new and soon-to-be-released publications; Find out about our various publication discounts and special pricing; and Search the AASHTO Archive for historical publications.THERE’S BOOKS AND MORE ATTHE AASHTO STORE!。

英文学术简历模板Curriculum VitaePersonal Details:Name: [Your Full Name]Date of Birth: [Date of Birth]Nationality: [Nationality]Address: [Your Full Address]Email: [Your Email Address]Phone: [Your Phone Number]Education:- [Start Date - End Date]: [Degree], [Field of Study], [University Name]- [Start Date - End Date]: [Degree], [Field of Study], [University Name]- [Start Date - End Date]: [Degree], [Field of Study], [University Name]- [Start Date - End Date]: [High School Diploma], [High School Name]Work Experience:- [Start Date - End Date]: [Job Title], [Company/Organization Name]- Description of responsibilities and achievements in bullet points. - [Start Date - End Date]: [Job Title], [Company/Organization Name]- Description of responsibilities and achievements in bullet points. - [Start Date - End Date]: [Job Title], [Company/Organization Name]- Description of responsibilities and achievements in bullet points. Research Experience:- [Start Date - End Date]: [Research Assistant],[University/Institution Name]- Description of research project and contributions.- [Start Date - End Date]: [Research Intern],[Company/Organization Name]- Description of research project and contributions.- [Start Date - End Date]: [Research Assistant],[University/Institution Name]- Description of research project and contributions. Publications:- [Publication Title], [Journal/Conference Name], [Publication Date]- [Publication Title], [Journal/Conference Name], [Publication Date]- [Publication Title], [Journal/Conference Name], [Publication Date]Skills:- Technical Skills:- [List of relevant technical skills]- Programming Languages:- [List of programming languages you are proficient in]- Language Proficiency:- [List of languages you are fluent in and your proficiency level] - Soft Skills:- [List of relevant soft skills, such as communication, teamwork,leadership]Awards and Honors:- [Year]: [Award/Honor Name], [Awarding Organization]- [Year]: [Award/Honor Name], [Awarding Organization]- [Year]: [Award/Honor Name], [Awarding Organization] Memberships and Affiliations:- [Year]: [Membership/Affiliation Name], [Organization Name]- [Year]: [Membership/Affiliation Name], [Organization Name]- [Year]: [Membership/Affiliation Name], [Organization Name] References:Available upon request.Note: This is just a template. Customize and update the sections as per your own academic and professional experiences. Make sure to include relevant and detailed information, such as specific projects, publications, and achievements.工作经验（Work Experience）：- [起始日期 - 结束日期]：[职位名称]，[公司/组织名称]- 负责对公司的[具体职责和成就]。

Chi(Harold) Liu55, West Kensington Court+44(0)78-0968-2396, chiliu@ London, W14 9AA, U.K. /~chiliu P ROFILE:•Four-year international research experience in telecoms industry, strong collaborations in UK, USA, and EU. •Two-year team leading experience for network simulation (OPNET), to support various projects and products. •Proven problem solving and analytical skills in modelling wireless networking problems.•Extensive technical presentation experience for international projects reviews and conferences. •Knowledge of working in an international corporate environment as a team player.R ESEARCH I NTERESTS:•Cross-layer design and optimization of multi-hop wireless ad hoc/mesh/sensor networks•Algorithm and protocol designs for distributed scheduling, QoS routing, and admission control•Network management and operations for Quality of Information (QoI), and middleware•Mobile control theory for inter-domain communications•General artificial intelligence, MDP/POMDP, data ferry, and data collection problemsE DUCATION:Imperial College, London, U.K. 2006 – Jan. 2010 (Exp.) Department of Electrical and Electronic Engineering Ph.D. in Electrical Engineering •Supervisor: Prof. Kin K. Leung•Thesis: Cross-Layer Design for Multi-Hop Wireless Networks•Participated in European Union FP6 MEMBRANE mesh network and US Army-UK MoD co-funded ITA sensor network research projects and led some collaborations•Published more than 20 conference, journal papers, deliverables, and technical reportsTsinghua University, Beijing, China 2002 - 2006 Department of Electronic Engineering B.Eng. in Electronic and Information Engineering •Supervisors: Prof. Xin Su and Prof. Jing Wang•Achieved overall 88.5/100 score with equivalence to first-class degree•Demonstrated excellent analytical skills that achieved average math/physics 95.0/100•Demonstrated excellent pragmatic skills that lab reports are used as grading samplesH ONOURS AND A WARDS:•Scholarship of US Army-UK Ministry of Defence co-funded ITA Project 2008 - 2009 •Scholarship of EU-Funded FP6 MEMBRANE Project 2006 - 2008 •Scholarship of Electrical Engineering Department, Imperial College, U.K. 2006 - 2009 •Analog Device Inc. Scholarship, Tsinghua University, China 2005 •First-class Scholarship, Tsinghua University, China 2004 •Second Prize of Hardware Design Contest, Tsinghua University, China 2003 •Champion of the 7th Scientific Award for Young Pioneers, Beijing, China 2002 •Champion of the Mathematical Modelling Contest, China 2001, 2002 P ROFESSIONAL E XPERIENCES:IBM’s T. J. Watson Research Centre, Hawthorne, USA June 2009 – September 2009 Research Intern US Army-UK MoD ITA Project •Mentors: Dr. Ting He and Dr. Kang-Won Lee (Manager)•Contributions: WCNC2010, MobiHoc2010, IBM Tech Rep.•Investigated the interoperability issues of heterogeneous wireless networks and systems, by using unmanned, sensor-mounted data ferries to maintain the inter-domain communications.•Proposed a complete mathematical model using partially observable Markov decision process (POMDP);investigated the optimal policy and various suboptimal heuristics through analytical analysis; proved two tight upper bounds and one tight lower bound for these algorithms.•Performed extensive both synthetic simulations and human mobility trace studies using Matlab/C++. Imperial College, London, UK October 2006 – September 2009 Research Assistant EU FP6 MEMBRANE Project •Collaborators: Dr. Athanasios Gkelias, Dr. Yun Hou, and Prof. Kin Leung•Contributions: ICOIN08, VTC-Spring08, ISWPC08, WiMob08, PIMRC08, Globecom09, IEEE Trans. on Networking, Springer Wireless Personal Comm.•Investigated cross-layer design for multi-hop wireless mesh networks.•Proposed a multi-constrained QoS routing algorithm, a distributed, proportional fair scheduling algorithm for long-term QoS provision, and a connection admission control for grade of services guarantees.•Proposed a unique generic admission control methodology for all packet networks, wired/wireless, transparent to lower protocol layers, by modelling the whole network as a black box to estimate thetime-vary network capacity through real-time performance measurements.IBM’s T. J. Watson Research Centre, Hawthorne, USA October 2008 – December 2009 Industry collaboration under US-UK ITA Project•Collaborators: Dr. Chatschik Bisdikian and Dr. Joel Branch•Contributions: SPIE DSS09, ACITA09, SECON 2010, MobiCom 2010 IBM Tech Rep.•Developed a QoI-aware sensor network management framework for multi-task operations, where an adaptive negotiation process is proposed between task QoI requirement and sensor network resources.•Investigated the fundamental tradeoffs among task QoI requirements, sensor network lifetime, and traffic models, on a comprehensive intruder detection user scenario using Matlab/C++.•Investigated distributed duty-cycling schemes to achieve global optimization optimum.•Participated regular conference calls, initiated and won bi-annual research grants, gave technical presentations, and drafted quarterly research deliverables and newsletters to meet the deadline.•Developed problem solving skills against military requirements in a pragmatic approach, applying innovative design methods where appropriate.CEFRIEL-Politecnico di Milano, Milan, Italy February 2007 - October 2008 Industry collaboration under EU-FP6 MEMBRANE Project•Collaborators: Sara Grilli Colombo, Dr. Erwu Liu, and Giovanni Paltenghi•Contributions: SimuTools09, UKSim09, 4 Deliverables•Led OPNET simulation campaign among a group of five researchers•Developed a complex cross-layer simulation platform that covers TCP/IP, MAC and PHY layers for wireless mesh networks, fulfilling project requirement; enhanced standard OPNET PHY layer pipelinestages to include Rayleigh fading channel, adaptive modulation and coding schemes and directional antenna.•Initialized and leaded the collaborations, managed timeliness and set up milestones.Tsinghua Unisplendour Corporation Ltd., Beijing, China June 2005 - August 2005 Summer Technical Intern•Supervisor: Zhuo Chen•Designed automatic highway accident alarming systems and weighing systems that have been transformed into commercial products.•Improved fast-learning, self-motivating, team working and communication skills in industry.Peer Reviewers:2007 - present •Journals: Int’l J. of Comm. Networks and Information security (IJCNIS), IEEE Trans. on Comm., IEEE Comm. Letter, IEEE Trans. on Wireless Comm. EURASIP J. on Wireless Comm. and Networking •2010 Conferences: Infocom, WCNC, VTC-Spring.•2009 Conferences: WCNC, VTC-Spring, VTC-Fall, Globecom, PIMRC, ACITA.•2008 Conferences: ISWPC, GlobeCom, IWCMC, WiMob.A CTIVITIES:Technical University of Delft, Delft, the Netherland September 2008 IDEA League Summer Workshop•Organized EU IDEA League summer workshop aiming to draft research agendas on "Next Generation ICT for the Next Generation"; fostered collaborations among 50 PhD students in EU.•Proposed a human-interactive mobile sensor environment for elderly people, delivered elevator pitch and final presentations, won second prize.Imperial College, London, U.K. 2007-2009 Student Helper•Helped annual graduation award ceremonies and annual alumni reunion event at Royal Albert Hall.•Student caller to help raise annual funds for Imperial College.Tsinghua University, Beijing, ChinaStudent Helper July 2005 •Helped organizing 1st Tsinghua International Forum for PhD students, ChinaChief Radio Presenter2002 - 2004 •Hosted and presented popular music series and awarded best presenter for two years.•Being university ambassador of P&G, IBM for product marketing in advert slots.C OMPUTER AND O THER S KILLS:•Network Simulator: extensive use of OPNET, some use of NS-2•Languages: extensive use of C/C++, MATLAB, Pascal, some use of Unix shell scripts.•Applications: extensive use of LATEX, MS Office, MS Visual, Windows database.•Statistical Packages: extensive use of SAS, SPSS, C and MATLAB statistical libraries.•Full clean driving licenses in both U.K. and China.•Language: English (fluent), French (intermediate), Chinese (mother tongue).P UBLICATIONS: Full list of publications is attached.R EFERENCES:•Professor Kin K. Leung, Fellow IEEETanaka Chair Professor in Internet Technology E-mail: kin.leung@ Electrical Engineering and Computing Departments, Imperial College, U.K.•Dr. Chatschik Bisdikian, Fellow IEEEResearch Staff Member, Policy and Networking Department E-mail: bisdik@ IBM T. J. Watson Research Center, Hawthorne, USA•Dr. Kang-Won LeeManager, Wireless Networking Research Group E-mail: kangwon@ IBM T. J. Watson Research Center, Hawthorne, USA•Academician Hequan Wu E-mail: wuhq@ Vice President of Chinese Academy of Engineering, ChinaChi(Harold) LiuJ OURNAL P APERS:1. C. H. Liu, K. K. Leung, and A. Gkelias, “A Generic Admission Control Methodology for Packet Networks,”submitted to IEEE/ACM Trans. on Networking.2. C. H. Liu, A. Gkelias, Y. Hou, and K. K. Leung. “Cross-Layer Design for QoS in Wireless Mesh Networks,”Springer Wireless Personal Communications, Special Issue on Cross-Layer Design for Future GenerationWireless Networks, 2009.3.J. Cheng, C. H. Liu, S. Zhou, and Y. Yao. “Linear Precoding based on Sub-channel Permutation inPost-combining MIMO-HARQ Systems,” IEICE Transactions on Communications, Volume E89-B, No. 11, pp.3139-3142, 2007.C ONFERENCE P APERS:1.T. He, C. H. Liu, K. W. Lee, K. K. Leung, and A. Swami, “Flying in the Dark: Dynamic Control of MobileGateways,” submitted to ACM MobiHoc 2010, Chicago, USA.2. C. H. Liu, C. Bisdikian, J. Branch, and K. K. Leung, “QoI-Aware Wireless Sensor Network Management forDynamic Multi-Task Operations,” submitted to IEEE SECON 2010, Boston, USA.3. C. H. Liu, T. He, K. W. Lee, K. K. Leung, and A. Swami, “Dynamic Control of Data Ferries under PartialObservations,” in IEEE WCNC 2010, Sydney, Australia.4. C. H. Liu, K. K. Leung, and A. Gkelias, “Route Capacity Estimation Based Admission Control and QoS Routingfor Mesh Networks,” in IEEE GlobeCom 2009, Hawaii, USA.5. C. H. Liu, J. Branch, C. Bisdikian, and K. K. Leung “A QoI-aware Middleware for Mission-oriented Applicationsin Wireless Sensor Networks,” in ACITA 2009, Maryland.6. C. H. Liu, S. G. Colombo, E. Liu, A. Gkelias, and G. Paltenghi. “Efficient Cross-Layer Simulator for PerformanceEvaluation of Wireless Mesh Networks,” in ACM/ICST SIMUTools 2009, 2-6 March, Rome, Italy.7. C. H. Liu, S. G. Colombo, A. Gkelias, E. Liu, and K. K. Leung. “An Efficient Cross-Layer SimulationArchitecture for Wireless Mesh Networks,” in IEEE UKSim 2009, UK.8. C. H. Liu, K. K. Leung, C. Bisdikian, and J. Branch, “A New Approach to Architecture of Sensor Networks forMission-Oriented Applications,” in SPIE Defence, Security, and Sensing 2009, 14-17 Apr., Orlando, USA.9. C. H. Liu, A. Gkelias, Y. Hou, and K. K. Leung. “A Distributed Scheduling Algorithm with QoS Provisions inMulti-Hop Wireless Mesh Networks,” in IEEE WiMob 2008, pp. 253-258, 12-14 Oct., Avignon, France.10. C. H. Liu, A. Gkelias, and K. K. Leung. “Connection Admission Control and Grade of Service for QoS Routing inWireless Mesh Networks,” in IEEE PIMRC 2008, pp. 1-5, 15-18 Sept., Canne, France.11. C. H. Liu, A. Gkelias, and K. K. Leung. “A Cross-Layer Framework of QoS Routing and Distributed Schedulingfor Mesh Networks”, in IEEE VTC Spring 2008, pp. 2193-2197, 11-14 May, Singapore.12. A. Gkelias, B. Federico, C. H. Liu, and K. K. Leung, “MIMO Routing with QoS Provisioning”, in Proc. of IEEEISWPC 2008, pp. 46-50, 7-9 May, Santorini, Greece.13. C. H. Liu, K. K. Leung, and A. Gkelias. “A Novel Cross-layer QoS Routing Algorithm for Wireless MeshNetworks”, in IEEE ICOIN 2008, pp. 1-5, 22-25 Jan., Busan, Korea.DELIEVERABLES AND REPORTS (Joint Contributions):1. C. H. Liu, C. Bisdikian, J. Branch, and K. K. Leung, “QoI-Aware Operations and Management inMulti-Task-Oriented Wireless Sensor Networks,” IBM Res. Tech. Rep. RC24840, August, 2009.2. C. H. Liu, K. K. Leung, C. Bisdikian, and J. Branch, “A New Approach to Architecture of Sensor Networks forMission-Oriented Applications,” IBM Res. Tech. Rep. RC24765, March, 2009.3. C. H. Liu et al. “D4.2.3: Further Extensions and Performance Studies of Routing and Scheduling Algorithms forthe MEMBRANE Network”, EU-funded MEMBRANE project annul report, 30 Sep. 2008.4. C. H. Liu et al., “D4.3.2: Network Simulations of the Overall Wireless Multihop Backhaul IP Network”,EU-funded MEMBRANE project annul report, 31 Jul 2008.5. C. H. Liu et al., “D4.2.2: Performance Studies of the New Routing, Scheduling and Power Control Algorithms bySimulation and/or Mathematical Analysis”, EU-funded MEMBRANE project annul report, 31 Dec. 2007.6. C. H. Liu et al., “D4.3.1: Network Simulations of the Overall Wireless Multihop Backhaul IP Network”,EU-funded MEMBRANE project annul report, 31 Dec. 2007.7. C. H. Liu et al., “D4.2.1: Joint Routing, Scheduling and Power Control Algorithms”, EU-funded MEMBRANEproject annul report, 31 Dec. 2007.。

MathScinet（美国数学评论）检索指南一、数据库简介美国数学会（Amarican Mathematical Socicty，AMS）将其著名的评论期刊《Mathematical Reviews》（MR）及检索期刊《Current Mathematical Publications》（CMP）制作成网络电子版数据库MathSciNet，提供从1940年至今61年全部数据的检索，内容包括数学及数学在统计学、工程学、物理学、经济学、生物学、运筹学、计算机科学中的应用等文献信息。

MR是一种在国际数学界享誉很高的评论性和报道性的数学文摘杂志。

由AMS于1940年创办。

该杂志评论的文献包括期刊、图书、会议录、文集和预印本，其中对1800多种期刊做选评，对400余种数学核心期刊做全评。

目前，中国有近150种期刊被选评。

CMP是一种以报道全球已经出版或即将出版的数学文献为主旨的通告性杂志，每个条目都由美国数学评论编辑选择，并根据《Mathematics Subject Classification》(MSC)进行分类。

我馆已购买的MathSciNet的使用权。

该数据库采用IP地址控制，校园网用户均可访问MathSciNet（包括通过代理上网的用户）,不需要帐号和口令。

目前，访问MathSciNet国际流量费需由用户自己负担，如果读者通过代理服务器访问，无须国际流量费。

二、进入数据库从我馆主页（）上的"电子期刊"栏目下选取"MathSciNet美国数学评论"，或直接输入网址，打开MathSciNet 主页。

三、主页内容主页上提供许多有关MathSciNet的相关信息，如membership; Customer services; employment sercices 等，点击右上角或界面中的MathSciNet，进入检索界面。

四、检索1、快速检索（QuickStarts）快速检索为系统默认的检索方式，页面上有两个下拉菜单，第一个用来选择数据库镜像站点，若选取的站点速度慢或不可登录时，可以选择其他站点。

CAplus Core Journal Coverage ListBibliographic information and abstracts for all articles in more than 1,500 key scientific journals are added to CAplus within 7 days. The list below is sorted alphabetically by the full journal title and also includes the journal abbreviation, CODEN, and publication frequency. This is not the full list of publications covered by CAS, and the list is subject to change.For more information about journal titles and abbreviations for publications indexed by CAS since 1907 please consult the CAS Source Index (CASSI) search toolLast Updated 3/14The publication frequency codes are as follows:A = AnnualBM = BimonthlyIRR = IrregularM = MonthlyQ = QuarterlySA = SemiannualSM = SemimonthlyX/YR = No. per YearW = WeeklyUNKN = UnknownTitle Coden FrequencyACS Appl. Mater. Interfaces AAMICK 24/YR ACS Applied Materials & InterfacesACS Catal. ACCACS MACS CatalysisACS Chem. Biol. ACBCCT MACS Chemical BiologyACS Chem. Neurosci. ACNCDM MACS Chemical NeuroscienceACS Comb. Sci. ACSCCC MACS Combinatorial ScienceACS Macro Lett. AMLCCD MACS Macro LettersACS Med. Chem. Lett. AMCLCT MACS Medicinal Chemistry LettersACS Nano ANCAC3 MACS Photonics APCHD5 MACS Sustainable Chem. Eng. ASCECG MACS Sustainable Chemistry & EngineeringACS Synth. Biol. ASBCD6 MACS Synthetic BiologyACS Symp. Ser. ACSMC8 IRRACS Symposium SeriesAPL Mater. AMPADS IRRAPL MaterialsARKIVOC (Gainesville, FL, U. S.) AGFUAR IRRARKIVOC (Gainesville, FL, United States)ATLA, Altern. Lab. Anim. AALADQ BMATLA, Alternatives to Laboratory AnimalsAcc. Chem. Res. ACHRE4 MAccounts of Chemical ResearchActa Biochim. Pol. ABPLAF QActa Biochimica PolonicaActa Chim. Slov. ACSLE7 QActa Chimica SlovenicaActa Crystallogr., Sect. A: Found. Adv. ACSAD7 BMActa Crystallographica, Section A: Foundations andAdvancesActa Crystallogr., Sect. B: Struct. Sci., Cryst. Eng.ACSBDA BM Mater.Acta Crystallographica, Section B: Structural Science,Crystal Engineering and MaterialsActa Crystallogr., Sect. C: Struct. Chem. ACSCGG MActa Crystallographica, Section C: StructuralChemistryActa Crystallogr., Sect. D: Biol. Crystallogr. ABCRE6 MActa Crystallographica, Section D: BiologicalCrystallographyActa Crystallogr., Sect. E: Struct. Rep. Online ACSEBH MActa Crystallographica, Section E: Structure ReportsOnlineActa Crystallogr., Sect. F: Struct. Biol. Commun. ACSFEN MActa Crystallographica, Section F: Structural BiologyCommunicationsActa Pharm. (Zagreb, Croatia) ACPHEE QActa Pharmaceutica (Zagreb, Croatia)Acta Pharmacol. Sin. APSCG5 MActa Pharmacologica SinicaActa Phys. Pol. A ATPLB6 MActa Physica Polonica AActa Phys. Pol. B APOBBB M Acta Physica Polonica BActa Phys. Pol. B Proc. Suppl. APPBEJ IRR Acta Physica Polonica B Proceedings SupplementActa Physiol. APCHC4 M Acta PhysiologicaAdsorption ADSOFO BM Adsorpt. Sci. Technol. ASTEEZ 10/YR Adsorption Science & TechnologyAdv. Chem. Lett. ACLDCE Q Advanced Chemistry LettersAdv. Drug Delivery Rev. ADDREP 15/YR Advanced Drug Delivery ReviewsAdv. Energy Mater. 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ASTYDQ M Aerosol Science and TechnologyAfinidad AFINAE Q Aging Cell ACGECQ BM Am. Ceram. Soc. Bull. ACSBA7 9/YR American Ceramic Society BulletinAm. Chem. Sci. J. ACSJCX Q American Chemical Science JournalAm. J. Clin. Nutr. AJCNAC M American Journal of Clinical NutritionAm. J. Hum. Genet. AJHGAG M American Journal of Human GeneticsAm. J. Physiol. AJPHAP M American Journal of PhysiologyAm. J. Respir. Cell Mol. Biol. AJRBEL M American Journal of Respiratory Cell and MolecularBiologyAm. Mineral. AMMIAY 8/YR American MineralogistAmino Acids AACIE6 M Anal. Chem. (Washington, DC, U. S.) ANCHAM SM Analytical Chemistry (Washington, DC, United States)Anal. Chem. Lett. ACLNCA BM Analytical Chemistry LettersAnal. Sci. ANSCEN M Analytical SciencesAnim. Welfare ANWEEF 4/YR Animal WelfareAnim. Welfare Inf. Cent. Bull. AWICAW Q Animal Welfare Information Center BulletinAnn. Pharm. Fr. APFRAD BM Annales Pharmaceutiques FrancaisesAnn. Chim. (Cachan, Fr.) ANCPAC 6/YR Annales de Chimie (Cachan, France)Ann. Nucl. Energy ANENDJ 12/YR Annals of Nuclear EnergyAnn. Nutr. Metab. ANUMDS 8/YR Annals of Nutrition & MetabolismAnn. Phys. (Amsterdam, Neth.) APNYA6 M Annals of Physics (Amsterdam, Netherlands)Ann. Plast. Surg. APCSD4 M Annals of Plastic SurgeryAnnu. Rep. Med. Chem. ARMCBI AAnnual Reports in Medicinal ChemistryAnnu. Rep. NMR Spectrosc. NMRPAJ IRR Annual Reports on NMR SpectroscopyAnnu. Rev. Biochem. ARBOAW A Annual Review of BiochemistryAnnu. Rev. Biomed. Eng. ARBEF7 A Annual Review of Biomedical EngineeringAnnu. Rev. Biophys. ARBNCV A Annual Review of BiophysicsAnnu. Rev. Cell Dev. Biol. ARDBF8 A Annual Review of Cell and Developmental BiologyAnnu. Rev. Earth Planet. Sci. AREPCI A Annual Review of Earth and Planetary SciencesAnnu. Rev. Entomol. ARENAA A Annual Review of EntomologyAnnu. Rev. Genet. ARVGB7 A Annual Review of GeneticsAnnu. Rev. Genomics Hum. Genet. ARGHC4 A Annual Review of Genomics and Human GeneticsAnnu. Rev. Immunol. ARIMDU A Annual Review of ImmunologyAnnu. Rev. Mater. Res. ARMRCU A Annual Review of Materials ResearchAnnu. Rev. Med. ARMCAH A Annual Review of MedicineAnnu. Rev. Microbiol. ARMIAZ A Annual Review of MicrobiologyAnnu. Rev. Neurosci. ARNSD5 A Annual Review of NeuroscienceAnnu. Rev. Nucl. Part. Sci. ARPSDF A Annual Review of Nuclear and Particle ScienceAnnu. Rev. Nutr. ARNTD8 A Annual Review of NutritionAnnu. Rev. Pathol.: Mech. Dis. ARPMCU A Annual Review of Pathology: Mechanisms of DiseaseAnnu. Rev. Pharmacol. Toxicol. ARPTDI A Annual Review of Pharmacology and ToxicologyAnnu. Rev. Phys. Chem. ARPLAP A Annual Review of Physical ChemistryAnnu. Rev. Physiol. ARPHAD A Annual Review of PhysiologyAnnu. Rev. Phytopathol. APPYAG A Annual Review of PhytopathologyAnnu. Rev. Plant Biol. ARPBDW AAnnual Review of Plant BiologyAnti-Cancer Agents Med. Chem. AAMCE4 10/YR Anti-Cancer Agents in Medicinal ChemistryAnti-Cancer Drugs ANTDEV 10/YR Anti-Infect. 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BJOCBH A Beilstein Journal of Organic ChemistryBiochemistry BICHAW W BioChem.: Indian J. BIOCCB IRR BioChemistry: An Indian JournalBioChip J. BJIODP Q BioChip JournalBioFactors BIFAEU 6/YR BioInorg. React. Mech. BRMIBD IRR BioInorganic Reaction MechanismsBioMetals BOMEEH BM BioResources BIORCM Q BioTechniques BTNQDO M BioTechnol.: Indian J. BRIIAQ IRR BioTechnology: An Indian JournalBioact. Carbohydr. Diet. Fibre BCDFBO 4/YR Bioactive Carbohydrates and Dietary FibreBioanalysis BIOAB4 24/YR Biocatal. Biotransform. BOBOEQ BM Biocatalysis and BiotransformationBiochem. Genet. BIGEBA BM Biochemical GeneticsBiochem. J. BIJOAK SM Biochemical JournalBiochem. Soc. Trans. BCSTB5 BM Biochemical Society TransactionsBiochem. Syst. Ecol. BSECBU BM Biochemical Systematics and EcologyBiochem. Biophys. Res. Commun. BBRCA9 52/YR Biochemical and Biophysical Research CommunicationsBiochemistry (Moscow) BIORAK 13/YR Biochem. Cell Biol. BCBIEQ BM Biochemistry and Cell BiologyBiochem. Mol. Biol. Educ. 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Acad. Sci.: Phys. BRSPEX M Bulletin of the Russian Academy of Sciences: PhysicsBunseki Kagaku BNSKAK M CALPHAD: Comput. Coupling Phase Diagrams Thermochem. CCCTD6 Q CALPHAD: Computer Coupling of Phase Diagrams and ThermochemistryCNS Neurol. Disord.: Drug Targets CNDDA3 8/YR CNS & Neurological Disorders: Drug TargetsCNS Oncol. CONNCO BM CNS OncologyCPT: Pharmacometrics Syst. Pharmacol. CPSPBR M CPT: Pharmacometrics & Systems PharmacologyCailiao Rechuli Xuebao CRXAAK M Calcif. Tissue Int. CTINDZ M Calcified Tissue InternationalCan. J. Chem. Eng. CJCEA7 M Canadian Journal of Chemical EngineeringCan. J. Microbiol. CJMIAZ M Canadian Journal of MicrobiologyCan. J. Phys. CJPHAD M Canadian Journal of PhysicsCan. J. Physiol. Pharmacol. CJPPA3 M Canadian Journal of Physiology and PharmacologyCan. Metall. Q. CAMQAU Q Canadian Metallurgical QuarterlyCan. Mineral. CAMIA6 BM Canadian MineralogistCancer Cell CCAECI M Cancer Gene Ther. CGTHEG M Cancer Gene TherapyCancer Genomics Proteomics CGPAC7 BM Cancer Genomics & ProteomicsCancer Lett. (N. Y., NY, U. S.) CALEDQ 28/YR Cancer Letters (New York, NY, United States)Cancer Res. CNREA8 SM Cancer ResearchCancer Sci. CSACCM M Cancer ScienceCarbon Manage. CMAAC8 BM Carbon ManagementCarcinogenesis CRNGDP M Cardiovasc. Hematol. Agents Med. Chem. CHAAA5 4/YR Cardiovascular & Hematological Agents in MedicinalChemistryCardiovasc. Hematol. Disord.: Drug Targets CHDDBU 3/YR Cardiovascular & Hematological Disorders: Drug Targets Cardiovasc. Res. CVREAU 14/YR Cardiovascular ResearchCatal. Rev.: Sci. Eng. CRSEC9 Q Catalysis Reviews: Science and EngineeringCatalysts CATACJ Q Cell Biochem. Biophys. CBBIFV 9/YR Cell Biochemistry and BiophysicsCell Biochem. Funct. CBFUDH 8/YR Cell Biochemistry and FunctionCell Calcium CECADV M Cell Cycle CCEYAS 24/YR Cell Host Microbe CHMECB M Cell Host & MicrobeCell Metab. CMEEB5 M Cell MetabolismCell Rep. 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Biochem. Eng. Q. CBEQEZ Q Chemical and Biochemical Engineering QuarterlyChem. Listy CHLSAC M Chemicke ListyChem.-Biol. Interact. CBINA8 18/YR Chemico-Biological InteractionsChem. Ing. Tech. CITEAH M Chemie Ingenieur TechnikChem. Erde CERDAA 4/YR Chemie der ErdeChem. Mater. CMATEX SM Chemistry of MaterialsChemija CHMJES 4/YR Chem. Technol. (Kaunas, Lith.) CTHEBZ Q Chemine Technologija (Kaunas, Lithuania)Chem. Biol. (Oxford, U. K.) CBOLE2 M Chemistry & Biology (Oxford, United Kingdom)Chem. Biol. Interface CBIHAO BM Chemistry & Biology InterfaceChem. Ind. (Chichester, U. K.) CHINAG M Chemistry & Industry (Chichester, United Kingdom)Chem. Lett. CMLTAG MChemistry LettersChem. Phys. Lipids CPLIA4 8/YR Chemistry and Physics of LipidsChemistryOpen CHOPCK 6/YR Chemom. Intell. Lab. Syst. CILSEN 10/YR Chemometrics and Intelligent Laboratory SystemsChemosphere CMSHAF 24/YR Chemotherapy (Basel, Switz.) CHTHBK BM Chemotherapy (Basel, Switzerland)Chimia CHIMAD M Chim. Ind. 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Genomics CGUEA8 8/YR Current GenomicsCurr. HIV Res. CHRUBF 8/YR Current HIV ResearchCurr. Immunol. Rev. CIRUBM 4/YR Current Immunology ReviewsCurr. Inorg. Chem. CICUBF 3/YR Current Inorganic ChemistryCurr. Med. Chem. CMCHE7 38/YR Current Medicinal ChemistryCurr. Metabolomics CMUECI 4/YR Current MetabolomicsCurr. Microbiol. CUMIDD M Current MicrobiologyCurr. Mol. Med. CMMUBP 10/YR Current Molecular MedicineCurr. Mol. Pharmacol. CMPUB6 3/YR Current Molecular PharmacologyCurr. Neuropharmacol. CNUEAN Q Current NeuropharmacologyCurr. Opin. Biotechnol. CUOBE3 BM Current Opinion in BiotechnologyCurr. Opin. Cell Biol. COCBE3 BM Current Opinion in Cell BiologyCurr. Opin. Chem. Biol. COCBF4 BM Current Opinion in Chemical BiologyCurr. Opin. Colloid Interface Sci. COCSFL BM Current Opinion in Colloid & Interface ScienceCurr. Opin. Genet. Dev. COGDET BM Current Opinion in Genetics & DevelopmentCurr. Opin. Immunol. COPIEL BM Current Opinion in ImmunologyCurr. Opin. Lipidol. 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(Sharjah, United Arab Emirates) C TMCCL 24/YR Current Topics in Medicinal Chemistry (Sharjah, UnitedArabEmirates)Curr. Vasc. Pharmacol. CVPUAY 6/YR Current Vascular PharmacologyCytokine Growth Factor Rev. CGFRFB BM Cytokine & Growth Factor ReviewsCytokine+ CYTIE9 12/YR DNA Repair DRNEAR M DNA Res. DARSE8 BM DNA ResearchDNA Cell Biol. DCEBE8 M DNA and Cell BiologyDefect Diffus. Forum DDFEAP IRR Defect and Diffusion ForumDermatol. Clin. DRMCDJ Q Dermatologic ClinicsDermatol. Surg. DESUFE M Dermatologic SurgeryDesalination DSLNAH 36/YR Des. Monomers Polym. DMPOF3 6/YR Designed Monomers and PolymersDevelopment (Cambridge, U. K.) DEVPED SM Development (Cambridge, United Kingdom)Dev. Biol. (Amsterdam, Neth.) DEBIAO SM Developmental Biology (Amsterdam, Netherlands)Dev. Cell DCEEBE M Developmental CellDev. Neurosci. (Basel, Switz.) DENED7 BM Developmental Neuroscience (Basel, Switzerland)Dev. Biol. (Basel, Switz.) DBEIAI IRR Developments in Biologicals (Basel, Switzerland)Diabetes DIAEAZ M Diabetes Manage. DMIAAN BM Diabetes Management。

200507- Best sentence and words for S&T Papers1. 如此...以致于An effective control of the intermittent process can optimize the capacity of heatexchange units so as to achieve better application of the earth energy.2. 除...之外In addition to its renewable nature, the earth energy is also a type of clean source ofenergy which has no CO2 emissions.3.4. 然而：尽管如此；仍然；然而(In spite of that, nonetheless, however:) This resulted in that a GSHPsystem normally requires large-scale heat exchangers and higher initial capital investment.Nevertheless, its potential for application of earth energy has drawn a great attention from the international societies and much research activities have been carried out to study and develop the GSHP [1-4].5. She was very tired, nevertheless she kept on working.6. 值得认可的是It is recognized that, when the heat exchanger is used for heating, the heattransfer load will result in a gradual drop of the ground thermal equilibrium temperature; and similarly, when the heat exchanger is used for cooling, the heat transfer load will result in a gradual increase of the ground temperature; as a result, the period for the ground source returning to its original thermal balance will be relatively long.7. 考虑到…….(事实) Considering the fact that a heat pump system normally does not operatecontinuously, the intermittent performance should be best suitable for cooling or heating system of the GSHP.8. 对照可知In contrast, it is known that the ratio for a conventional heating/cooling system is atabout 2 [5]. Indeed, it is very important to choose a reasonable ratio to make the temperature recovering to be efficient.9. 清晰可见、由此可知It is clear that the recovering is proportional to the stopping time, whilethe power consumption does not increase continuously.10. 这将保证this ensures the system to work at high efficiency11. 这样、如此一来Thus, the earth energy is utilised more efficiently by such temperaturerecovering in the intermittent operation process, and as a result, the scale of the ground heat exchangers can be reduced to save the cost of initial investment.12. 由此表明It is indicated that on the experimental condition, the temperature is properlycontrolled by the intermittent process.13. The lowest temperature in heating process is controlled at higher than 0.8o C; while for acooling process, it is controlled at lower than 27o C.14.The results of Fig. 4 indicate that15. The temperature curves A, B, C, D, E and F in Figs. 5a & b respectively represents theresults at different radial positions as A: R=0cm, B: R=3cm, C: R=8.5cm, D: R=28.4cm, E: R=49cm, and F: R=80cm.16. This is due to the former has a shorter period to recovery the ground temperature and longerperiod to release heat energy to the ground than the latter situation.17. Similar to Fig. 5, Fig. 6 also shows the comparison of the ground temperature variation fordifferent operating conditions, but the depth of the borehole is 200 meters, two times of the depth for the borehole discussed in Fig. 5.18. it is predictable that the temperature fluctuation gets smaller with the distance in radialdirection; the temperature curves become relatively smooth as the heat flux from the heat exchanger to the ground decreases with the increase of cylindrical surface area.19. 为了进一步的探知For a further identification,20. 尽管图6表现了与图5相似的特性和趋势，但是Although Fig. 6 shows the similarcharacteristic and trend of ground temperature variation to Fig. 5, the intensity of heat transfer is much lower and the influent extent of temperature variation in radial direction is smaller. 21. （表示两图具有不同的比较条件）The difference between Figs. 5 and 6 is that they have adifferent borehole depth, and the latter represents the temperature variation for the heat exchanger borehole depth of 200 meters, which is twice as deeper as the heat exchanger borehole represented in Fig. 5.22. 基于……可以看到Based on the calculation results, it can be seen that the range oftemperature fluctuation is inverse to（反比与）the depth of the heat exchanger borehole. 23. 曾经被提到It should be mentioned that in above results, all cases were selected at thesame condition of operating for 5 hours before taking any measurement.24. 这项工作是为………….奠定基础This work is a basis for further study and application of theintermittent process in the future.25. 毫无疑问………….There is no doubt that he is guilty.26. 经过证明的是…………It was proved that the one hour duration peak loads a GHE can coverare in the order of 140–260 W/m, when the initial ground temperature is 15–20℃for cold climate areas.27. 如此这样做，目的是By doing so, the calculation can extend the limitation of experiments, andthen more useful information could be provided for design engineers and researchers.28. 当很多注意力或努力在…………..时，很少有人关注……….. 。

V a s s i l i s T h e o d o r a k o p o u l o sWireless Communications Engineer30 Richmond Mount, Leeds, West YorkshireTel: 07796 978197 (mobile) 0113 2946608 (home)Email: vtheodor@ URL: /~vtheodorNationality: Greek (EU Citizen. No work permit required)Personal ProfileMy academic experience has given me a thorough grounding in the field of engineering and I have developed a great interest in the area of wireless communications. My main focus in the recent 5 years has been the design and analysis of image and video coding, processing, and communication systems. I am familiar with programming and simulation tools and I enjoy learning new languages and toolsets which I acquire easily. I maintained a high level of achievement throughout my academic studies and I have a record of scientific publications in peer-reviewed journal and conferences. I consider myself as a hardworking person, able to adapt to new situations and to work effectively in team and individual basis.Key Technical Abilities•Modelling skills for layered image and video transmission over mobile and wireless networks•Computing and system development with C, Matlab and Python•User of Microsoft / Unix / Linux operating systemsEducation•2003 – 2007: PHD in Computer ScienceSchool of Informatics, Department of Computing, University of Bradford, Bradford, UKResearch thesis:Multi-priority QAM Transmission System for High Quality Mobile Video Applications. An experimental comparison of an M-QAM transmission system suitable for video transmission targeted for wireless networks is presented. The communication system is based in layer coding and unequal error protection to make the video data robust to channel errors.Key skills acquired: The philosophy of research, Effective written and oral presentation, Supervision of projects, Advanced video coding, Wireless communications, etc. (For a full list of publications please visit my web-page) •2000 – 2001: MSc in Communications and Real-Time Electronic SystemsSchool of Engineering, Department of Electronics & Communications, University of Bradford, Bradford, UK Research thesis:A Signal-Space Simulation for QAM. This Master’s thesis carries out an investigation in a signal space simulation for a digital communication system for transmission via single AWGN channel and via multipath Rayleigh fading channel. For the transmission an M-QAM system is considered.Key skills acquired:Wireless communications, Image and video processing, Digital Signal Processing, etc.•1996 – 2000: BEng in Electronic, Telecommunications & Computer EngineeringSchool of Engineering, Department of Electronics & Communications, University of Bradford, Bradford, UKProject Report: Investigation of Techniques for the Reduction of Howl-Round in Public Address Systems. This project attempts to use various echo cancellation techniques to control the effects of acoustic feedback between an adjacent microphone and loudspeaker in a public address systems.Key skills/knowledge acquired: Basics of electronics design, Advanced computer programming, etc.Professional ExperienceFeb 2002 – Jul 2002 :Research AssistantSchool of Informatics, University of Bradford, Bradford, West Yorkshire, U.K.My key responsibility in this role was to undertake a project on Multi-Priority Mobile Transmission Systems that involved modelling and simulation analysis of a novel M-QAM transmission system for mobile video applications. I accomplished this with leading the design and development of the transmission system. This role allowed me to further develop my project management skills. Responsibilities included the supervision of laboratories, support and help to a PhD researcher with active project and MSc students.Jul 1998 – Jul 1999 :Student EngineerDepartment of Development, Pace Micro Communications, Shipley, West Yorkshire, U.K.During the 12 months in the Development Department I was involved in building and testing development products, supervising the Pace ISDN and technical check of the imported electrical components. My duties also involved communicating with suppliers, clients, warehouse staff and the administration office. As a student engineer I was also working for other departments inside the company and developed the ability to understand the dynamics of a working environment, learned the aims of a business and how the different functions such as development, production, sales and marketing all relate.Jul 1997 – Sep1997 :Student Engineer (vocational work)Jul 1996 – Sep1996 :Hellenic Sugar Factory – Factory of Orestiada, Orestiada, 68200, GreeceI had the opportunity to work and be trained in the Technical Support Department in the factory of Orestiada. My duties included: installing and upgrading the employees PCs, installing a small network inside the factory, familiarising with the company’s database and central computer administration.Key SkillsSelf Management: Approaching the PhD from a project management perspective, being the project manager I was equipped with effective organisational, time and resource management skills in order to successfully complete the course on time and remain in control.Problem Solving: During my academic career I developed the ability to see a task through to its conclusion.There were several times during my research career when the results I had were leading to a dead end, but by employing efficient problem solving strategies (I am adept at looking at the bigger picture, while at the same time can pull out and analyse the important details of any problem) I could overcome the problem and lead my work to publishable results.Communication: I have strong communication skills, both written and verbal. My academic career has necessitated the importance of writing state of the art reports and articles and presenting them to a wide cross-section of academics and industrial professionals both at the University of Bradford and at conferences worldwide.Selected Publications (For a full list of publications please visit my web-page)•“Comparative analysis of a twin-class M-QAM transmission system for wireless video applications”, Theodorakopoulos V., Woodward M., Journal of Multimedia Tools and Applications, Special Issue: Wireless Multimedia, Vol. 28, Issue 1, Feb. 2006, pp. 125-139.•“Uniform and Non-uniform Partitioned 64-QAM for Mobile Video Transmission”, Theodorakopoulos V., Woodward M., Sotiropoulou K., 9th IASTED International Conference on Internet & Multimedia Systems & Applications (IMSA), Honolulu, USA, 2005.•“Comparison of uniform and non-uniform M-QAM schemes for mobile video applications”, Theodorakopoulos V., Woodward M., Sotiropoulou K., IEEE International Conference on Multimedia communications Systems (ICMCS), Montreal, Canada, 2005.•“A Dual Priority M-QAM Transmission System for High Quality Video over Mobile Channels”, Theodorakopoulos V., Woodward M., Sotiropoulou K., IEEE First International Conference on Distributed Frameworks for Multimedia Applications (DFMA), Besançon, France, 2005.•“Partitioned Quadrature Amplitude Modulation for Mobile Video Transmission”, Theodorakopoulos V., Woodward M., Sotiropoulou K., IEEE Sixth International Symposium on Multimedia Software Engineering (ISMSE), Miami, USA, 2004.Professional Activities•Reviewer for the Institution of Engineering and Technology (IET) Proceedings in Communications.•Member of IEEE Communications Society, IEEE Computer Society, IETReferencesAvailable upon request。

Graduate School HomepageImportant Notes to Applicants Documents to Support an Online ApplicationPlease read the following carefully and send the required documents to the Graduate School by the application deadline to ensure thorough and timely consideration of your application. Your full name should be clearly marked on each document. Where possible, please also quote your application number (which will be assigned to you after submission of your application online), proposed programme (MPhil/PhD) and department of study.All documents should reach the Graduate School Office (Room P403, Graduate House, The University of Hong Kong, Pokfulam Road, Hong Kong) on or before the application deadline. Documents once submitted will NOT be returned or reused for future applicationsTo avoid any possible delay in processing your application, please submit your application online and obtain an application number before sending the supporting documents to the Graduate School (except the official score reports of English language proficiency tests and GMAT/GRE, which may be sent after you take the test(s) but before you submit an application for admission).Supporting application documents without a corresponding application record in the online application system will not be considered.1. Certificates and complete transcripts of undergraduate and postgraduatestudiesPlease submit official certificates and complete official transcripts of yourundergraduate and postgraduate studies. Documents which are not inEnglish should be accompanied by a formally translated version inEnglish. If the policy of your institution is that the transcript should remainconfidential, please request your institution to send it directly to the HKUGraduate School.For current undergraduate or postgraduate students: it is to youradvantage to submit an interim transcript showing the results of coursesyou have so far completed.For qualifications obtained from HKU (except HKU SPACE): Certified。

摘自科发际字〔2009〕26号中国科学院外国专家特聘研究员计划管理办法（试行）第一章总则第一条为有效实施我院外国专家特聘研究员资助计划（CHINESE ACADEMY OF SCIENCES VISITING PROFESSORSHIP FOR SENIOR INTERNATIONAL SCIENTISTS）(简称“特聘研究员计划”，CAS VISITING PROFESSORSHIP）的管理，根据《中国科学院人才培养引进系统工程实施意见》和《中国科学院海外智力引进和人才国际交流培养计划实施办法》，制定本办法。

第二条特聘研究员计划的宗旨是通过吸引外国优秀高级研究人员参与我院研究项目，加强与国外国立科研机构、大学和企业研究人员的合作，充分利用国际智力资源，提升我院科技创新能力。

第三条特聘研究员计划适用于正在或曾在国外著名国立科研机构、大学或企业工作、具有较深学术造诣或学术发展潜力、与院属相关单位具有相同或相近研究方向、有意来我院从事一定期限合作研究工作的优秀高级外籍科学家。

第四条特聘研究员计划连续资助期限为2-12个月。

资助期满后可根据工作需要申请延期。

第二章组织管理第五条中国科学院人才工作领导小组负责指导和协调特聘研究员计划的管理与实施。

第六条国际合作局会同院机关相关部门负责特聘研究员计划的宣传、征集、评审、报批等管理工作；人事教育局负责涉及特聘研究员的人事、岗位等管理工作。

第七条院属单位（依托单位）负责特聘研究员的日常管理，将特聘研究员纳入本单位岗位管理范围，与其签署聘用合同，提供必要工作条件以及办理签证、居留、保险等方面的服务。

第三章项目申请第八条特聘研究员计划采取我院依托单位推荐和我院国外合作伙伴机构推荐两种途径进行申报：1.院属依托单位推荐。

依托单位根据本单位工作需求和掌握的信息，提出推荐人选。

2.国外合作伙伴机构推荐。

由院制定年度计划，商请我院国外合作伙伴机构限额推荐。

第九条特聘研究员计划推荐材料每年集中受理两次，受理日期分别为3月1-15日和9月1-15日。

WHO Model Formulary for ChildrenBased on the Second Model List of Essential Medicines for Children 2009世界卫生组织儿童标准处方集基于2009年儿童基本用药的第二个标准目录WHO Library Cataloguing-in-Publication Data:WHO model formulary for children 2010.Based on the second model list of essential medicines for children 2009.1.Essential drugs.2.Formularies.3.Pharmaceutical preparations.4.Child.5.Drug utilization. I.World Health Organization.ISBN 978 92 4 159932 0 (NLM classification: QV 55)世界卫生组织实验室出版数据目录：世界卫生组织儿童标准处方集基于2009年儿童基本用药的第二个标准处方集1．基本药物 2.处方一览表 3.药品制备 4儿童 5.药物ISBN 978 92 4 159932 0 (美国国立医学图书馆分类：QV55)World Health Organization 2010All rights reserved. Publications of the World Health Organization can be obtained fromWHO Press, World Health Organization, 20 Avenue Appia, 1211 Geneva 27, Switzerland (tel.: +41 22 791 3264; fax: +41 22 791 4857; e-mail: ******************). Requests for permission to reproduce or translate WHO publications – whether for sale or for noncommercial distribution – should be addressed to WHO Press, at the aboveaddress(fax:+41227914806;e-mail:*******************).世界卫生组织2010版权所有。

Guide To Securing Remote Access SoftwareDisclosure Protocol:Clear—Disclosure is not limitedDate of Writing:June12,2023OverviewThe Cybersecurity and Infrastructure Security Agency(CISA)released a Guide to Securing Remote Access Software detailing methods for detecting and mitigating the growing threat of cyber threat actors targeting remote access software.Remote access software is commonly used across public and private IT networks,as it provides a proactive andflexible approach for organizations to remotely oversee networks,computers,and other devices.Unfortunately,the capabilities of remote access software are also heavily favored by almost all cyber threat groups we have observed targeting public safety.When remote access software does not have proper monitoring andflags for nefarious activity, threat actors are able to use the tools to establish broad network access while going undetected.In addition to targeting the remote software applications,adversaries heavily attack remote service protocols themselves.Since January2022,we have observed at least13different attributed threat actors abusing remote services to gain initial access to public safety environments.Adversaries used tools like Windows Remote Desktop Protocol(RDP)and Server Message Block(SMB)to move across public safety networks and access new aspects of victim environments.Details and technical guidance,such as the associated tactics,techniques,and procedures(TTPs)and detection and mitigation strategies can be found in the joint advisory.Malicious Use of Remote Access Software&ServicesThe practice of targeting remote access software and remote services remains prevalent,and is in the topfive methods by which adversaries access public safety victims.Threat actors desire these services because they:●Are hard to detect.Since remote tools were created for legitimate use,anti-malware or endpoint and detectionand response may not alert security teams when threat actors abuse remote access software in targetenvironments.●Do not require extensive capability development.Threat actors do not need to use or purchase developedremote access trojans(RAT)or other custom malware during engagements.Several vendors of remote access software allow free trials,and many victims often have existing remote protocols unsecured or open to theinternet.●May allow bypassing software management control policies.Even if user access controls(UACs)are put inplace by system administrators or security teams,remote access software can act as a self-containedportable executable and let threat actors avoid administrative access restrictions.●Could allow adversaries to bypass firewall rules .Several remote access applications offer end-to-endencryption.By creating an encrypted outbound or inbound connection,firewalls are unable to detect thedownload of files that would normally be caught in plaintext network traffic.●Can facilitate multiple cyber intrusions .Managed Service Providers (MSPs)use remote access software tomanage and monitor multiple customer environments at the same time.This is no different for threat actors.They are able to conduct multiple cyber intrusions all from the same graphical user interface (GUI),greatly expanding threat actors'operational capabilities.Associated Tactics,Techniques,&Procedures (TTP)For a full list of TTPs associated with remote access software,please refer to the attached Guide To Securing Remote Access PDF.DetectionIn order to properly detect the use of remote access software in an environment,it is necessary to create a security baseline of normal network and host activity within a monitored environment.By creating a baseline it can be easier for security teams to detect anomalous activity in a given environment.Host-based detection tools such as EDRs have the ability to monitor for remote access software.The following are commonly used remote access software used by threat actors who target public safety organizations:●ConnectWise Control (formerly ScreenConnect)●Anydesk ●Remote Utilities ●NetSupport ●Splashtop ●Atera ●TeamViewer ●Pulseway●RemotePC●Kaseya●GoToMyPC●N-Able●Bomgar●Zoho AssistRecommended Mitigation ControlsThe authoring organizations encourage network defenders to:●Implement best practices to block phishing emails.See CISA’s Phishing Infographic for more information.1●Audit remote access tools on your network to identify currently used and/or authorized RMM software.●Review logs for execution of RMM software to detect abnormal use of programs running as a portableexecutable.●Use security software to detect instances of RMM software only being loaded in memory.●Implement application controls to manage and control execution of software,including allowlisting RMMprograms.1https:///sites/default/files/publications/phishing-infographic-508c.pdf2○See NSA’s Cybersecurity Information sheet Enforce Signed Software Execution Policies for more information.○Application controls should prevent both installation and execution of portable versions of unauthorized RMM software.●Require authorized RMM solutions only be used from within your network over approved remote accesssolutions,such as virtual private networks(VPNs)or virtual desktop interfaces(VDIs).●Block both inbound and outbound connections on common RMM ports and protocols at the networkperimeter.●Implement a user training program and phishing exercises to raise awareness among users about the risks ofvisiting suspicious websites,clicking on suspicious links,and opening suspicious attachments.Reinforce the appropriate user response to phishing and spearphishing emails.2https:///2019/Sep/09/2002180334/-1/-1/0/Enforce%20Signed%20Software%20Execution%20Policies%20-%20Copy.pdfAppendix A:Assessment and Response Standard Operating Procedures Levels of Analytic ConfidenceHigh ConfidenceModerate Confidence Low ConfidenceGenerally indicates judgments based on high-quality information,and/or the nature of the issue makes it possible to render a solid judgment.A“highconfidence”judgment is not a fact or a certainty,however,and still carries a risk of being wrong.Generally means credibly sourced andplausible information,but not ofsufficient quality or corroboration towarrant a higher level of confidence.Generally means questionable orimplausible information was used,theinformation is too fragmented or poorlycorroborated to make solid analyticinferences,or significant concerns orproblems with sources existed.Appendix B:Traffic Light Protocol for DisclosureAs part of the PSTA,agencies and other members are encouraged to share their own cybersecurity threat experiences to improve the awareness and readiness of the overall group.Submitting agencies should stipulate the level of disclosure required for their submissions according to the PSTA Traffic Light Protocol (TLP),based upon the CISA Traffic Light Protocol guidance,which helps all members submit and leverage insights while being respectful of the submitting agency’s preferences.RED:Restricted to the immediate PSTA participants only ●When should it be used?Sources may use TLP:RED when information cannot be effectively acted upon by additional parties,and could lead to impacts on a party's privacy,reputation,or operations if misused.●How may it be shared?Recipients may not share TLP:RED information with any parties outside of the specific exchange,meeting,or conversation in which it was originally disclosed.In the context of a meeting,for example,TLP:RED information is limited to those present at the meeting.In most circumstances,TLP:RED should beexchanged verbally or in person.GREEN:Restricted to the community●When should it be used?Sources may use TLP:GREEN when information is useful for the awareness of all participating organizations as well as with peers within the broadercommunity or sector.●How may it be shared?Recipients may share TLP:GREEN information with peers andpartner organizations within their sector orcommunity,but not via publicly accessiblermation in this category can be circulated widely within a particularcommunity.TLP:GREEN information may not be released outside of the community.AMBER:Restricted to participants’organizations ●When should it be used?Sources may use TLP:AMBER when information requires support to be effectively acted upon,yet carries risks to privacy,reputation,or operations if shared outside of the organizations involved.●How may it be shared?Recipients may only share TLP:AMBER information with members of their own organization,and with clients orcustomers who need to know the informationto protect themselves or prevent furtherharm.TLP:AMBER+STRICT Restricts sharingto the organization only.CLEAR:Disclosure is not limited●When should it be used?Sources may use TLP:CLEAR when information carries minimal or no foreseeable risk of misuse,inaccordance with applicable rules andprocedures for public release.●How may it be shared?Subject to standard copyright rules,TLP:CLEAR information may be distributed without restriction.。

基金申请书简历参与人论著填(中英文版)英文文档:The purpose of this document is to outline the details of the grant application, including the curriculum vitae of the researcher, the list of publications, and the contributions of each participant.Firstly, the curriculum vitae of the researcher should be included in the grant application.This should provide a summary of the researcher"s academic background, experience, and achievements.It should include any relevant degrees, positions held, and research projects conducted.Additionally, it should highlight any publications, presentations, or awards that demonstrate the researcher"s expertise in the field.Secondly, the list of publications should be included in the grant application.This should include any peer-reviewed articles, book chapters, or conference papers that the researcher has authored or co-authored.The list should be organized in chronological order and should provide full bibliographic details for each publication.It is important to include any publications that are relevant to the proposed research project, as this will demonstrate the researcher"s previous work in the field.Finally, the contributions of each participant should be outlined inthe grant application.This should include a description of each participant"s role in the project, their areas of expertise, and their planned contributions to the research.It is important to clearly explain how each participant will contribute to the project and how their expertise will be utilized to achieve the research objectives.In conclusion, the grant application should include the curriculum vitae of the researcher, the list of publications, and the contributions of each participant.These sections will provide evidence of the researcher"s expertise in the field, their previous work in the area of study, and the collaborative nature of the project.中文文档:本文件旨在概述基金申请的详细内容，包括研究者的简历、出版物清单以及每位参与者的贡献。

期刊发表作者英文姓名As an author of a journal publication, it is essential to ensure that your name is accurately and consistently presented in English. The format for listing authors' names in English is typically "Last Name, First Name Middle Name" or "Last Name, First Initial Middle Initial." This format is important for ensuring proper indexing and citation of your work in academic databases and publications.When listing your name as an author, it is important to use the same format consistently across all of your publications. This helps to avoid confusion and ensures that your work is properly attributed to you in academic databases and citation indexes. In addition, using a consistent format for your name can help to establish your academic identity and make it easier for others to find and reference your work.In some cases, authors may have multiple variations of their name in English, such as a full name and a shortened version or a name with and without a middle initial. It is important to choose one standard format and use it consistently across all of your publications. This helps to avoid confusion and ensures that your work is properly attributed to you in academic databases and citation indexes.When submitting your work for publication, it is important to carefully check the formatting of your name in the author list. Ensure that it is presented exactly as you intend and that it matches the format used in your previous publications. If there are any discrepancies or errors in the formatting of your name, it is important to address these with the journal or publication before your work is published.In conclusion, as an author of a journal publication, it is important to ensure that your name is accurately and consistently presented in English. By using a standard format and checking the formatting of your name before publication, you can help to ensure that your work is properly attributed to you and easily discoverable by others in the academic community.。

Thinking in SystemsOther Books by Donella H. Meadows:Harvesting One Hundredfold: Key Concepts and Case Studies inEnvironmental Education (1989).The Global Citizen (1991).with Dennis Meadows:Toward Global Equilibrium (1973).with Dennis Meadows and Jørgen Randers:Beyond the Limits (1992).Limits to Growth: The 30-Year Update (2004).with Dennis Meadows, Jørgen Randers, and William W. Behrens III:The Limits to Growth (1972).with Dennis Meadows, et al.:The Dynamics of Growth in a Finite World (1974).with J. Richardson and G. Bruckmann:Groping in the Dark: The First Decade of Global Modeling (1982).with J. Robinson:The Electronic Oracle: Computer Models and Social Decisions (1985).Thinking in Systems—— A Primer ——Donella H. MeadowsEdited by Diana Wright,Sustainability InstituteLONDON · STERLING, VAFirst published by Earthscan in the UK in 2009Copyright © 2008 by Sustainability Institute.All rights reservedISBN: 978-1-84407-726-7 (pb) ISBN: 978-1-84407-725-0 (hb)Typeset by Peter Holm, Sterling Hill Productions Cover design by Dan BramallFor a full list of publications please contact:EarthscanDunstan House14a St Cross StLondon, EC1N 8XA, UKTel: +44 (0)20 7841 1930Fax: +44 (0)20 7242 1474Email: earthinfo@Web: 22883 Quicksilver Drive, Sterling, VA 20166-2012, USAEarthscan publishes in association with the International Institute for Environment and DevelopmentA catalogue record for this book is available from the British LibraryLibrary of Congress Cataloging-in-Publication Data has been applied for.At Earthscan we strive to minimize our environmental impacts and carbon footprint through reducing waste, recycling and offsetting our CO 2 emissions, including those created through publication of this book. For more details of our environmental policy, see .This book was printed in the UK by TJ International Ltd, an ISO 14001 accredited company. The paper used is FSC certi fied. Part of this work has been adapted from an article originally published under the title “Whole Earth Models and Systems” in Coevolution Quarterly (Summer 1982). An early version of Chapter 6 appeared as “Places to Intervene in a System” in Whole Earth Review (Winter 1997) and later as an expanded paper published by the Sustainability Institute. Chapter 7, “Living in a World of Systems,” was originally published as “Dancing with Systems” in Whole Earth Review (Winter 2001).F O R DA NA(1941–2001)and for all those who would learn from herCONTENTSA Note from the Author | ixA Note from the Editor | xiIntroduction: The Systems Lens | 1Part One: System Structures and BehaviorONE. The Basics | 11TWO. A Brief Visit to the Systems Zoo | 35Part Two: Systems and UsTHREE. Why Systems Work So Well | 75FOUR. Why Systems Surprise Us | 86FIVE. System Traps . . . and Opportunities | 111Part Three: Creating Change—in Systems and in Our Philosophy SIX. Leverage Points—Places to Intervene in a System | 145SEVEN. Living in a World of Systems | 166AppendixSystem Definitions: A Glossary | 187Summary of Systems Principles | 188Springing the System Traps | 191Places to Intervene in a System | 194Guidelines for Living in a World of Systems | 194Model Equations | 195Notes | 204Bibliography of Systems Resources | 208Editor’s Acknowledgments | 211About the Author | 213Index | 215A NOTE FROM THE AUTHORThis book has been distilled out of the wisdom of thirty years of systems modeling and teaching carried out by dozens of creative people, mostof them originally based at or influenced by the MIT System Dynamics group. Foremost among them is Jay Forrester, the founder of the group. My particular teachers (and students who have become my teachers) have been, in addition to Jay: Ed Roberts, Jack Pugh, Dennis Meadows, Hartmut Bossel, Barry Richmond, Peter Senge, John Sterman, and Peter Allen, but I have drawn here from the language, ideas, examples, quotes, books, and lore of a large intellectual community. I express my admiration and grati- tude to all its members.I also have drawn from thinkers in a variety of disciplines, who, as far as I know, never used a computer to simulate a system, but who are natu- ral systems thinkers. They include Gregory Bateson, Kenneth Boulding, Herman Daly, Albert Einstein, Garrett Hardin, Václav Havel, Lewis Mumford, Gunnar Myrdal, E.F. Schumacher, a number of modern corpo- rate executives, and many anonymous sources of ancient wisdom, from Native Americans to the Sufis of the Middle East. Strange bedfellows, but systems thinking transcends disciplines and cultures and, when it is done right, it overarches history as well.Having spoken of transcendence, I need to acknowledge factionalism as well. Systems analysts use overarching concepts, but they have entirely human personalities, which means that they have formed many fractious schools of systems thought. I have used the language and symbols of system dynamics here, the school in which I was taught. And I present only the core of systems theory here, not the leading edge. I don’t deal with the most abstract theoriesand am interested in analysis only when I can see how it helps solve real prob- lems. When the abstract end of systems theory does that, which I believe it will some day, another book will have to be written.Therefore, you should be warned that this book, like all books, is biased and incomplete. There is much, much more to systems thinking than isX A NOTE FROM THE AUTHORpresented here, for you to discover if you are interested. One of my purposesis to make you interested. Another of my purposes, the main one, is to give you a basic ability to understand and to deal with complex systems, even if your formal systems training begins and ends with this book.—Donella Meadows, 1993A NOTE FROM THE EDITORIn 1993, Donella (Dana) Meadows completed a draft of the book you now hold. The manuscript was not published at the time, but circulated informally for years. Dana died quite unexpectedly in 2001—before she completed this book. In the years since her death, it became clear that her writings have continued to be useful to a wide range of readers. Dana was a scientist and writer, and one of the best communicators in the world of systems modeling.In 1972, Dana was lead author of The Limits to Growth—a best-selling and widely translated book. The cautions she and her fellow authors issued then are recognized today as the most accurate warnings of how unsus- tainable patterns could, if unchecked, wreak havoc across the globe. That book made headlines around the world for its observations that continual growth in population and consumption could severely damage the ecosys- tems and social systems that support life on earth, and that a drive for limit-less economic growth could eventually disrupt many local, regional, and global systems. The findings in that book and its updates are, once again, making front-page news as we reach peak oil, face the realities of climate change, and watch a world of 6.6 billion people deal with the devastating consequences of physical growth.In short, Dana helped usher in the notion that we have to make a major shift in the way we view the world and its systems in order to correct our course. Today, it is widely accepted that systems thinking is a critical tool in addressing the many environmental, political, social, and economic challenges we face around the world. Systems, big or small, can behave in similar ways, and understanding those ways is perhaps our best hope for making lasting change on many levels. Dana was writing this book to bring that concept to a wider audience, and that is why I and my colleagues at the Sustainability Institute decided it was time to publish her manuscript posthumously.Will another book really help the world and help you, the reader? I thinkXII A NOTE FROM THE EDITORso. Perhaps you are working in a company (or own a company) and are struggling to see how your business or organization can be part of a shift toward a better world. Or maybe you’re a policy maker who is seeing others “push back” against your good ideas and good intentions. Perhaps you’rea manager who has worked hard to fix some important problems in your company or community, only to see other challenges erupt in their wake. As one who advocates for changes in how a society (or a family) functions, what it values and protects, you may see years of progress easily undone in a few swift reactions. As a citizen of an increasingly global society, perhaps you are just plain frustrated with how hard it is to make a positive and last- ing difference.If so, I think that this book can help. Although one can find dozens of titles on “systems modeling” and “systems thinking,” there remains a clear need for an approachable and inspiring book about systems and us—why we find them at times so baffling and how we can better learn to manage and redesign them.At the time that Dana was writing Thinking in Systems, she had recently completed the twenty-year update to Limits to Growth, titled Beyond the Limits. She was a Pew Scholar in Conservation and the Environment, was serving on the Committee on Research and Exploration for the National Geographic Society, and she was teaching about systems, environment, and ethics at Dartmouth College. In all aspects of her work, she was immersed in the events of the day. She understood those events to be the outward behavior of often complex systems.Although Dana’s original manuscript has been edited and restruc- tured, many of the examples you will find in this book are from her first draft in 1993. They may seem a bit dated to you, but in editing her work I chose to keep them because their teachings are as relevant now as they were then. The early 1990s were the time of the dissolution of the Soviet Union and great shifts in other socialist countries. The North American Free Trade Agreement was newly signed. Iraq’s army invaded Kuwait and then retreated, burning oil fields on the way out. Nelson Mandela was freedfrom prison, and South Africa’s apartheid laws were repealed. Labor leader Lech Walesa was elected president of Poland, and poet Václav Havel was elected president of Czechoslovakia. The International Panel on Climate Change issued its first assessment report, concluding that “emissions from human activities are substantially increasing the atmospheric concentra-A NOTE FROM THE EDITOR XIII tions of greenhouse gases and that this will enhance the greenhouse effect and result in an additional warming of the Earth’s surface.” The UN held a conference in Rio de Janeiro on environment and development.While traveling to meetings and conferences during this time, Dana read the International Herald Tribune and during a single week found many examples of systems in need of better management or complete redesign. She found them in the newspaper because they are all around us every day. Once you start to see the events of the day as parts of trends, and those trends as symptoms of underlying system structure, you will be able to consider new ways to manage and new ways to live in a world of complex systems. In publishing Dana’s manuscript, I hope to increase the ability of readers to understand and talk about the systems around them and to act for positive change.I hope this small approachable introduction to systems and how we think about them will be a useful tool in a world that rapidly needs to shift behaviors arising from very complex systems. This is a simple book for and about a complex world. It is a book for those who want to shape a better future.—Diana Wright, 2008If a factory is torn down but the rationality which produced it isleft standing, then that rationality will simply produce another factory. If a revolution destroys a government, but the systematic patterns of thought that produced that government are left intact, then those patterns will repeat themselves. . . . There’s so much talk about the system. And so little understanding.—Robert Pirsig, Zen and the Art of Motorcycle MaintenanceIntroduction: The System Lens Managers are not confronted with problems that are independentof each other, but with dynamic situations that consist of complexsystems of changing problems that interact with each other. I callsuch situations messes. . . . Managers do not solve problems, theymanage messes.—Russell Ackoff,1 operations theoristEarly on in teaching about systems, I often bring out a Slinky. In case you grew up without one, a Slinky is a toy—a long, loose spring that can be made to bounce up and down, or pour back and forth from hand to hand,or walk itself downstairs.I perch the Slinky on one upturned palm. With the fingers of the other hand, I grasp it from the top, partway down its coils. Then I pull the bottom hand away. The lower end of the Slinky drops, bounces back up again, yo-yos up and down, suspended from my fingers above.“What made the Slinky bounce up and down like that?” I ask students. “Your hand. You took away your hand,” they say.So I pick up the box the Slinky came in and hold it the same way, poised on a flattened palm, held from above by the fingers of the other hand. Withas much dramatic flourish as I can m uster, I pull the lower hand away. Nothing happens. The box just hangs there, of course.“Now once again. What made the Slinky bounce up and down?”The answer clearly lies within the Slinky itself. The hands that manipu- late it suppress or release some behavior that is latent within the structure of the spring.That is a central insight of systems theory.Once we see the relationship between structure and behavior, we can begin to understand how systems work, what makes them produce poor results, and how to shift them into better behavior patterns. As our world2 INTRODUCTIONcontinues to change rapidly and become more complex, systems think- ing will help us manage, adapt, and see the wide range of choices we have before us. It is a way of thinking that gives us the freedom to identify root causes of problems and see new opportunities.So, what is a system? A system is a set of things—people, cells, molecules,or whatever—interconnected in such a way that they produce their own pattern of behavior over time. The system may be buffeted, constricted, triggered, or driven by outside forces. But the system’s response to these forces is characteristic of itself, and that response is seldom simple in the real world.When it comes to Slinkies, this idea is easy enough to understand. When it comes to individuals, companies, cities, or economies, it can be heretical. The system, to a large extent, causes its own behavior! An outside event may unleash that behavior, but the same outside event applied to a differ- ent system is likely to produce a different result.Think for a moment about the implications of that idea:· Political leaders don’t cause recessions or economic booms.Ups and downs are inherent in the structure of the marketeconomy.· Competitors rarely cause a company to lose market share.They may be there to scoop up the advantage, but the losingcompany creates its losses at least in part through its ownbusiness policies.· The oil-exporting nations are not solely responsible for oil-price rises. Their actions alone could not trigger global pricerises and economic chaos if the oil consumption, pricing, andinvestment policies of the oil-importing nations had not builteconomies that are vulnerable to supply interruptions.· The flu virus does not attack you; you set up the conditionsfor it to flourish within you.· Drug addiction is not the failing of an individual and no oneperson, no matter how tough, no matter how loving, can curea drug addict—not even the addict. It is only through under-standing addiction as part of a larger set of influences andsocietal issues that one can begin to address it.THE SYSTEM LENS 3 Something about statements like these is deeply unsettling. Something else is purest common sense. I submit that those two somethings—a resis- tance to and a recognition of systems principles—come from two kinds of human experience, both of which are familiar to everyone.On the one hand, we have been taught to analyze, to use our rational ability, to trace direct paths from cause to effect, to look at things in small and understandable pieces, to solve problems by acting on or controlling the world around us. That training, the source of much personal and soci- etal power, leads us to see presidents and competitors, OPEC and the flu and drugs as the causes of our problems.On the other hand, long before we were educated in rational analysis, we all dealt with complex systems. We are complex systems—our own bodies are magnificent examples of integrated, interconnected, self-maintaining complexity. Every person we encounter, every organization, every animal, garden, tree, and forest is a complex system. We have built up intuitively, without analysis, often without words, a practical understanding of how these systems work, and how to work with them.Modern systems theory, bound up with computers and equations, hides the fact that it traffics in truths known at some level by everyone. It is often possible, therefore, to make a direct translation from systems jargon to traditional wisdom.Because of feedback delays within complex systems, by the timea problem becomes apparent it may be unnecessarily difficultto solve.— A stitch in time saves nine.According to the competitive exclusion principle, if a reinforc-ing feedback loop rewards the winner of a competition withthe means to win further competitions, the result will be theelimination of all but a few competitors.— For he that hath, to him shall be given; and he that hath not, from him shall be taken even that which he hath (Mark 4:25)or—The rich get richer and the poor get poorer.A diverse system with multiple pathways and redundancies is4 INTRODUCTIONmore stable and less vulnerable to external shock than a uniformsystem with little diversity.— Don’t put all your eggs in one basket.fited from Ever since the Industrial Revolution, Western society has bene science, logic, and reductionism over intuition and holism. Psychologically and politically we would much rather assume that the cause of a problem is “out there,” rather than “in here.” It’s almost irresistible to blame some-thing or someone else, to shift responsibility away from ourselves, and to look for the control knob, the product, the pill, the technicalfix that will make a problem go away.Serious problems have been solved by focusing on external agents— preventing smallpox, increasing food production, moving large weights and many people rapidly over long distances. Because they are embedded in larger systems, however, some of our “solutions” have created further problems. And some problems, those most rooted in the internal structure of complex systems, the real messes, have refused to go away. Hunger, poverty, environmental degradation, economic instability, unem- ployment, chronic disease, drug addiction, and war, for example, persist in spite of the analytical ability and technical brilliance that have been directed toward eradicating them. No one deliberately creates those problems, no one wants them to persist, but they persist nonetheless. That is because they are intrinsically systems problems—undesirable behaviors characteristic of the system structures that produce them. They will yield only as we reclaim our intuition, stop casting blame, see the system as the source of its own problems, and find the courage and wisdom to restructure it.Obvious. Yet subversive. An old way of seeing. Yet somehow new. Comforting, in that the solutions are in our hands. Disturbing, because we must do things, or at least see things and think about things, in a different way.This book is about that different way of seeing and thinking. It is intendedfor people who may be wary of the word “systems” and the field of systems analysis, even though they may have been doing systems thinking all their lives. I have kept the discussion nontechnical because I want to show what a long way you can go toward understanding systems without turning to mathematics or computers.I have made liberal use of diagrams and time graphs in this bookTHE SYSTEM LENS 5 because there is a problem in discussing systems only with words. Words and sentences must, by necessity, come only one at a time in linear, logi- cal order. Systems happen all at once. They are connected not just in one direction, but in many directions simultaneously. To discuss them prop- erly, it is necessary somehow to use a language that shares some of the same properties as the phenomena under discussion.Pictures work for this language better than words, because you can see all the parts of a picture at once. I will build up systems pictures gradually, starting with very simple ones. I think you’ll find that you can understand this graphical language easily.I start with the basics: the definition of a system and a dissection of its parts (in a reductionist, unholistic way). Then I put the parts back together to show how they interconnect to make the basic operating unit of a system:the feedback loop.Next I will introduce you to a systems zoo—a collection of some common and interesting types of systems. You’ll see how a few of these creatures behave and why and where they can be found. You’ll recognize them; they’re all around you and even within you.With a few of the zoo “animals”—a set of specific examples—as a foun- dation, I’ll step back and talk about how and why systems work so beau- tifully and the reasons why they so often surprise and confound us. I’ll talk about why everyone or everything in a system can act dutifully and rationally, yet all these well-meaning actions too often add up to a perfectly terrible result. And why things so often happen much faster or slower than everyone thinks they will. And why you can be doing something that has always worked and suddenly discover, to your great disappointment, that your action no longer works. And why a system might suddenly, and with- out warning, jump into a kind of behavior you’ve never seen before. That discussion will lead to us to look at the common problems that the systems-thinking community has stumbled upon over and over again through working in corporations and governments, economies and ecosystems, physi- ology and psychology. “There’s another case of the tragedy of the commons,”we find ourselves saying as we look at an allocation system for sharing water resource among communities or financial resources among schools. Or we identify “eroding goals” as we study the business rules and incentives that helpor hinder the development of new technologies. Or we see “policy resistance”as we examine decision-making power and the nature of relationships in a6 INTRODUCTIONfamily, a community, or a nation. Or we witness “addiction”—which can be caused by many more agents than caffeine, alcohol, nicotine, and narcotics. Systems thinkers call these common structures that produce character- istic behaviors “archetypes.” When I first planned this book, I called them “system traps.” Then I added the words “and opportunities,” because these archetypes, which are responsible for some of the most intransigent and potentially dangerous problems, also can be transformed, with a little systems understanding, to produce much more desirable behaviors. From this understanding I move into what you and I can do about restructuring the systems we live within. We can learn how to look for leverage points for change.I conclude with the largest lessons of all, the ones derived from the wisdom shared by most systems thinkers I know. For those who wantto explore systems thinking further, the Appendix provides ways to dig deeper into the subject with a glossary, a bibliography of systems think- ing resources, a summary list of systems principles, and equations for the models described in Part One.When our small research group moved from MIT to Dartmouth College years ago, one of the Dartmouth engineering professors watched us in semi- nars for a while, and then dropped by our offices. “You people are diffe r- ent,” he said. “You ask different kinds of questions. You see things I don’t see. Somehow you come at the world in a different way. How? Why?” That’s what I hope to get across throughout this book, but especially in its conclusion. I don’t think the systems way of seeing is better than the reductionist way of thinking. I think it’s complementary, and there- fore revealing. You can see some things through the lens of the human eye, other things through the lens of a microscope, others through the lens of a telescope, and still others through the lens of systems theory. Everything seen through each kind of lens is actually there. Each way of seeing allows our knowledge of the wondrous world in which we live to become a little more complete.At a time when the world is more messy, more crowded, more intercon- nected, more interdependent, and more rapidly changing than ever before, the more ways of seeing, the better. The systems-thinking lens allows us to reclaim our intuition about whole systems and· hone our abilities to understand parts,7THE SYSTEM LENS· see interconnections,· ask “what-if ” questions about possible future behaviors, and· be creative and courageous about system redesign.Then we can use our insights to make a difference in ourselves and our world.INTERLUDE· The Blind Men and the Matter of the ElephantBeyond Ghor, there was a city. All its inhabitants were blind. A king with his entourage arrived nearby; he brought his army and camped in the desert. He had a mighty elephant, which he used to increase the people’s awe. The populace became anxious to see the elephant, and some sightless from among this blind community ran like fools to find it.As they did not even know the form or shape of the elephant, they groped sightlessly, gathering information by touching some part of it.Each thought that he knew something, because he could feel a part. . . . The man whose hand had reached an ear . . . said: “It is a large, rough thing, wide and broad, like a rug.”And the one who had felt the trunk said: “I have the real facts about it. It is like a straight and hollow pipe, awful and destructive.”firm, like a The one who had felt its feet and legs said: “It is mighty andpillar.”Each had felt one part out of many. Each had perceived it wrongly. . . .2 This ancient Sufi story was told to teach a simple lesson but one that we often ignore: The behavior of a system cannot be known just by knowing the elements of which the system is made.PART ONESystem Structure and Behavior— ONE—The BasicsI have yet to see any problem, however complicated, which, whenlooked at in the right way, did not become still more complicated.—Poul Anderson1More Than the Sum of Its PartsA system isn’t just any old collection of things. A system* is an intercon- nected set of elements that is coherently organized in a way that achieves something. If you look at that definition closely for a minute, you can see that a system must consist of three kinds of things: elements, interconnec- tions, and a function or purpose.For example, the elements of your digestive system include teeth, enzymes, stomach, and intestines. They are interrelated through the physi- cal flow of food, and through an elegant set of regulating chemical signals. The function of this system is to break down food into its basic nutrients and to transfer those nutrients into the bloodstream (another system), while discarding unusable wastes.A football team is a system with elements such as players, coach, field, and ball. Its interconnections are the rules of the game, the coach’s strat- egy, the players’ communications, and the laws of physics that govern the motions of ball and players. The purpose of the team is to win games, or have fun, or get exercise, or make millions of dollars, or all of the above.A school is a system. So is a city, and a factory, and a corporation, and a national economy. An animal is a system. A tree is a system, and a forest is a larger system that encompasses subsystems of trees and animals. The earth * Definitions of words in bold face can be found in the Glossary.。

thesis by publication information sheet 论文发表信息表thesis by publication information sheet 论文发表信息表Office of Graduate Studies Information Sheet Thesis by Publication The Rules Governing Research Higher Degrees (Rule 000830) allow for a thesis to be submitted in the form of a series of published papers. Rule 53. A thesis submitted in the form of a series of published papers shall conform to the following: a) a full explanatory overview shall be included to link the separate papers and to place them in the context of an established body of knowledge; b) a literature review shall be included; c) if detailed data and descriptions of methods are not otherwise given, they shall be included as appendices; d) the papers must be published, in press or submitted to scholarly media only, i.e. refereed publications classified by national journal rankings and refereed conference papers, however at least 50% of the papers must have been published. Papers published up to three years prior to enrolment may be included provided they were published in scholarly media and do not represent more than 50% of the total papers; e) publications submitted for another degree by the student may only be referred to in the literature review; f) the number of papers submitted should be sufficient for the body of work to constitute a significant and original contribution to knowledge; g) the candidate must be the leadauthor in at least 50% of the papers written in the time of their formal Research Higher Degree candidature. Any published paper of which the candidate is a joint author may only be included in the thesis provided the work done by the candidate is clearly identified. The candidate must include in the thesis a written statement from each co-author attesting to the candidate' s contribution to a joint publication included as part of the thesis. These statements must be endorsed by the Pro Vice-Chancellor (or nominee); h) the Head of School or Pro Vice-Chancellor may seek the approval of the Deputy Vice-Chancellor (Research) to include a paper that is outside the scope of these rules. Issues to consider Each discipline area will have different issues to consider in the decision to submit a thesis in the form of a series of published papers. - It is essential that you discuss your options carefully with your supervisor(s). The thesis must reflect a sustained and cohesive theme, an integrated whole that sits logically in the context of the available literature. Overall the material presented for examination needs to equate to that which would otherwise be presented in the traditional thesis format. - Some journals take a long time to finalise the review process and waiting for papers to be accepted can delay thesis submission. Time management and selection of journals/publishers is critical. Focusing on publication rather than research may lead to candidates being tempted to publishsections of their work prematurely and missing opportunities to fullycapitalize on the significance of the work. You ne ed to consider the thesis from the examiners' view point - if the publications do not have a clear cohesion and the contribution to knowledge is not clearly demonstrated, then the thesis may attract criticism and be rejected by examiners. The content of the thesis remains a matter of professional judgment for the supervisor(s) and candidate. As- per rule 53 g) any published paper of which the candidate is a joint author may only be included in the thesis provided the work done by the candidate is clearly identified. The candidate must include in the thesis a written statement from each co-author attesting to the candidate ' s contribution to a joint publication included as part of the thesis. The statement/s need to be signed by the Faculty Assistant Dean (Research Training) (Pro Vice-Chancellor nominee). A sample statement is provided below. - We strongly advise you to arrange for the signatures from co-authors to be collected as soon as the paper is prepared or submitted for publication rather than trying to collect themat the time of thesis submission. - There is nominimum or maximum requirement on the number of papers. Of equal, or perhaps more importance than quantity, is the quality ofthe journals._____________________________ Other options As discussed above, you need to consider if your publications will form a sufficient body of work to meet the requirements of thesis by publication. You may wish to consider the other option of including publications within a standard thesis format, either in the body or as an appendix, as per rule 51 c) below. 51.A thesis: c) may include publications arising as a consequence of the research undertaken for a thesis. When the candidate includes a co-authored published paper or co-authored scholarly work, or a substantive component of a co-authored published paper or co-authored scholarly work in the body of the thesis, the candidate must include in the thesis a written statement attesting to their contribution to the joint publication. This statement must be endorsed by the supervisor. A statement is not required when publications are included as an appendix.Suggested format 1. Title Page 2. Declaration “I hereby catttfyiSKhes is is submittedin the form of a series of published papers of which I am a joint author. I have included as part of the thesis a written statement from each co-author; and endorsed by the Faculty Assistant Dean (Research Training), attesting to my contribution to the joint publications. 3. . Acknowledgements 4. List of publications included as part of the thesis 4.1List all of the included published work with thefull bibliographic citations in the order they appear in the thesis.4.2Provide a statement to indicate that where necessary permission regarding copyright has been obtained from copyright owners. For example, the statement may say “I warrant that I have obtained, where necessary, permission from the copyright owners to use any third party copyright material reproduced in the thesis (e.g. questionnaires, artwork, unpublished letters), or to use any of my own published work (e.g. journal articles) in which the copyright is held by another party (e.g. publisher, co- author). ”5. Statement of Contribution of Others Include in the thesis a written statement from each co-author attesting to the candidate' s contribution to a joint publication included as part of the thesis. The purpose of this statement is to summarise and clearly identify the nature and extent of the intellectual input by the candidate and any co-authors. 5.1 Sample co-author statement I, (insert co-author' s name in full), attest that Research Higher Degree candidate (insert name) contributed (insert outline of contribution) to the paper/publication entitled (insert reference details). (Signature of Co-Author) (Full Name of Co-Author) Date: (Signature of Candidate) (Full Name of Candidate) Date: (Signature of Assistant Dean Research Training (ADRT)) (Full Name of ADRT) Date:6. List of additional publications List additional publications and conference presentations which have relevance tothe thesis, but are not included in it. List these alphabetically and chronologically. 7. Table of Contents 8. Abstract An abstract of approximately 300 words is required to describe the content of the thesis. 9. Overview A full explanatory overview is required to link the published papers to the research thesis. This may include sections for Literature Review, Research Design and Review/Discussion. Not all of these sections may be necessary. Choose the format that underpins the academic argument so that the contents of the thesis are established as a substantial and significant body of work, but without unnecessary repetition. 10.Published papers Each chapter should have an introduction to explain how it contributes to the overall body of knowledge. Where the candidate is relying on publications, the author' s final version of the paper (the version of the paper accepted by the journal for publication, including all modifications from the publishing per review process) would normally be included. It is not necessary to reformat published works in the thesis. Publications can be included in full or in parts thereof, where appropriate, to substantiate the contribution to knowledge. 11. Appendices Appendices may include permission letters regarding copyright, evidence supporting refereed status of publications such as conference papers, and acceptance of papers which have not yet appeared in print. 12. BibliographyList all references cited in the thesis. 3。

英语作文汇报模板Title: Report Writing Template。

Introduction:The purpose of this report is to provide a comprehensive overview of [topic]. This report will cover [key points/topics] and provide an in-depth analysis of [specific aspect]. The information presented in this report is based on extensive research and data analysis, and aimsto provide a clear and concise understanding of [topic].Background:In order to fully understand the context of [topic], it is important to provide some background information. [Topic] has been a subject of interest for many years, and has been the focus of numerous studies and research projects. The significance of [topic] lies in its impact on [relevantfield/industry], and its potential to [benefits/risks].Understanding the background of [topic] is crucial in order to appreciate its relevance and importance.Key Points/Topics:1. [Key Point/Topic 1]: This section will provide an overview of [key point/topic 1], including its history, current status, and future prospects. It will also explore the various factors that have contributed to the development of [key point/topic 1], and its impact on [relevant field/industry].2. [Key Point/Topic 2]: This section will focus on [key point/topic 2], and will provide a detailed analysis of its significance and implications. It will also examine the challenges and opportunities associated with [keypoint/topic 2], and its potential to [benefits/risks].3. [Key Point/Topic 3]: This section will address [key point/topic 3], and will explore its relevance and impact on [relevant field/industry]. It will also discuss the current trends and future outlook of [key point/topic 3],and its potential to [benefits/risks].Analysis:The analysis section of this report will provide a comprehensive evaluation of the key points/topics discussed above. It will examine the various factors that have influenced the development of [topic], and its impact on [relevant field/industry]. The analysis will also explore the challenges and opportunities associated with [topic], and its potential to [benefits/risks].Conclusion:In conclusion, this report has provided a detailed overview of [topic], and has examined its significance and implications. It has also explored the challenges and opportunities associated with [topic], and its potential to [benefits/risks]. The information presented in this report aims to provide a clear and concise understanding of [topic], and to contribute to the ongoing discussion and research of [relevant field/industry].Recommendations:Based on the analysis presented in this report, the following recommendations are proposed:1. [Recommendation 1]: This recommendation aims to address the challenges associated with [topic], and to maximize its potential for [benefits/risks].2. [Recommendation 2]: This recommendation aims to capitalize on the opportunities presented by [topic], and to enhance its impact on [relevant field/industry].Acknowledgements:The completion of this report would not have been possible without the support and contribution of [individuals/organizations]. Their expertise and insights have been invaluable in providing a comprehensive overview of [topic], and their input is greatly appreciated.References:The information presented in this report is based on extensive research and data analysis, and has been sourced from a variety of reputable publications and sources. Afull list of references is provided to ensure the accuracy and credibility of the information presented in this report.In conclusion, this report aims to provide a comprehensive overview of [topic], and to contribute to the ongoing discussion and research of [relevantfield/industry]. It is hoped that the information presented in this report will be of value to those with an interestin [topic], and will serve as a valuable resource forfurther study and analysis.。

目录用英语怎么说目录，是指书籍正文前所载的目次，是揭示和报道图书的工具。

目录是记录图书的书名、著者、出版与收藏等情况，按照一定的次序编排而成，为反映馆藏、指导阅读、检索图书的工具。

那么你知道目录用英语怎么说吗?下面来学习一下吧。

目录英语说法1：catalog目录英语说法2：catalogue目录英语说法3：list目录的相关短语：工作目录 Working directory ;Working Copy产品目录Catalog ; Product Catalog ; Product Directory ; Products分类目录classified catalogue ; Directory ; Categories ; split catalog联合目录 Union catalog ; union catalog ; Union List ; NUCMC 目录列表 dir ; directory list ; DirListBox ; Table of Contents活动目录 Active Directory ; AD ; LiveFolder ; Microsoft Active Directory目录的英语例句：1. I once bought a thingummy out of one of those catalogues.我曾经买过那些目录里的一样东西。

2. Their full catalogue costs $5, redeemable against a first order.他们的完整目录售价5美元，第一次订购时可返还这5美元。

3. Yahoo is the oldest and best-known Web directory service.雅虎是最早且最知名的因特网目录服务网站。

4. The catalog includes helpful information on the different bike models available.目录中包括了在售的各种型号自行车的有用信息。