information_systems_management英文原文+翻译_____学生信息管理系统的设计与发展___文献翻译

会计学accountancy美国研究American studies解剖与生物结构学anatomy &structural biology古代史ancient history动物行为学animal behaviour动物认知学animal cognition动物科学与心理animal science & physiology南极研究Antarctic studies人类学anthropology应用行为分析applied behaviour analysis应用经济/金融学applied economics/ finance应用科学applied science建筑研究/技术architecture studies/ technology艺术策展art curatorship艺术史与理论art history & theory艺术与语言教育arts & languages education艺术（应用型）arts(applied)亚洲语言Asian languages亚洲研究Asian studies天文学与天体物理学astronomy & astrophysics听觉学audiology行为分析behaviour analysis生化工程biochemical engineering生物化学biochemistry生物工程/生物加工工程bioengineering/ bioprocess engineering 生物信息学bioinformatics生物科学biological sciences生物数学biomathematics生物医学科学/工程biomedical science/ engineering生物安全biosecurity/ bioprotection生物技术biotechnology广播broadcasting建筑科学/技术building science/ technology工商管理business administration商业电脑business computing商业管理business management商务business/ commerce细胞与分子生物科学/生物科技cell & molecular化学工程/技术chemical engineering/ technology化学物理chemical 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management体育教练sport coach体育与运动sports & exercise运动医学sports medicine统计statistics战略管理strategic management供应链管理supply chain management系统开发systems development系统工程systems engineering税务与会计taxation & accounting技术technology技术教育technology education电讯telecommunication电视制作television production纺织品设计textile design戏剧研究drama studies时基媒体time-based media汤加Tongan旅游资源、影响与规划tourism resources、impacts & planning 旅游/旅游与酒店管理tourism/ tourism & hospitality management 毒理学toxicology翻译研究translation studies运输工程/研究transportation engineering/ studies怀唐伊条约研究treaty of Waitangi studies城市设计urban design估价与物业管理valuation & property management视觉艺术/人文/通信设计visual arts/ culture/ communication design 葡萄栽培/酿酒viticulture/ oenology网络与数据密集型系统web & data-intensive system动物学zoology。

Management Information System Overview Management Information System is that we often say that the MIS, is a human, computers and other information can be composed of the collection, transmission, storage, maintenance and use of the system, system, emphasizing emphasizing the the management, management, management, stressed stressed stressed that that the modern information society In the increasingly popular. MIS is a new subject, it across a number of areas, such as scientific scientific management management management and and and system system system science, science, science, operations operations operations research, research, research, statistics statistics statistics and and and computer computer science. In these subjects on the basis of formation of information-gathering and processing methods, thereby forming a vertical and horizontal weaving, and systems. The 20th century, along with the vigorous development of the global economy, many economists have proposed a new management theory. In the 1950s, Simon made dependent on information management and decision-making ideas. Wiener published the same period of the control theory, that he is a management control process. 1958, Gail wrote: "The management will lower the cost of timely and accurate information to b etter control." During better control." During this period, accounting for the beginning of the computer, data processing in the term.1970, Walter T . Kenova just to the management information system under a definition of the . Kenova just to the management information system under a definition of the term: "verbal or written form, at the right time to managers, staff and outside staff for the past, present, the projection of future Enterprise and its environment-related information 原文请找腾讯3249114六,维^论~文.网 no no application application application model, model, model, no no mention mention of of computer applications. 1985, management information systems, the founder of the University of Minnesota professor of management at the Gordon B. Davis to a management information system a more complete definition of "management information system is a computer hardware and software resources, manual operations, analysis, planning , Control and decision -making model and the database - System. System. It It provides information to to support support enterprises enterprises or or organizations organizations of of the operation, management and decision-making function. "Comprehensive definition of this Explained Explained that that that the the the goal goal goal of of of management management management information information information system, system, system, functions functions functions and and and composition, composition, composition, but but also reflects the management information system at the time of level.With the continuous improvement of science and technology, computer science increasingly mature, the computer has to be our study and work on the run along. Today, computers are already already very low price, performance, but great progress, and it was used in many areas, the very low price, performance, but great progress, and it was used in many areas, the computer computer was was was so so so popular popular popular mainly mainly mainly because because because of of of the the the following following following aspects: aspects: aspects: First, First, First, the the the computer computer computer can can substitute for many of the complex Labor. Second, the computer can greatly enhance people's work work efficiency. efficiency. efficiency. Third, Third, Third, the the the computer computer computer can can can save save save a a a lot lot lot of of of resources. resources. resources. Fourth, Fourth, Fourth, the the the computer computer computer can can make sensitive documents more secure.Computer application and popularization of economic and social life in various fields. So that the original old management methods are not suited now more and social development. Many people still remain in the previous manual. This greatly hindered the economic development of mankind. mankind. In recent years, with the University of sponsoring scale is In recent years, with the University of sponsoring scale is growing, the number of students students in in in the the the school school school also also also have have have increased, increased, increased, resulting resulting resulting in in in educational educational educational administration administration administration is is is the the growing complexity of the heavy work, to spend a lot of manpower, material resources, and the existing management of student achievement levels are not high, People have been usin g the traditional method of document management student achievement, the management there are many shortcomings, such as: low efficiency, confidentiality of the poor, and Shijianyichang, will have a large number of of documents documents documents and and data, which is is useful useful for finding, finding, updating updating and maintaining Have brought a lot of difficulties. Such a mechanism has been unable to meet the development of the times, schools have become more and more day -to-day management of a bottleneck. bottleneck. In In In the the the information information information age age age this this this traditional traditional traditional management management management methods methods methods will will will inevitably inevitably inevitably be be computer-based information management replaced. As As part part part of of of the the the computer computer computer application, application, application, the the the use use use of of of computers computers computers to to to students students students student student student performance performance information for management, with a manual management of the incomparable advantages for example: example: rapid rapid rapid retrieval, retrieval, retrieval, to to to find find find convenient, convenient, convenient, high high high reliability reliability reliability and and and large large large capacity capacity capacity storage, storage, storage, the the confidentiality confidentiality of of of good, good, good, long long long life, life, life, cost cost cost Low. Low. Low. These These These advantages advantages advantages can can can greatly greatly greatly improve improve improve student student performance management students the efficiency of enterprises is also a scientific, standardized standardized management, management, management, and and and an an an important important important condition condition condition for for for connecting connecting connecting the the the world. world. world. Therefore, Therefore, the development of such a set of management software as it is very necessary thing.Design ideas are all for the sake of users, the interface nice, clear and simple operation as far as possible, but also as a practical operating system a good fault-tolerant, the user can misuse a timely manner as possible are given a warning, so that users timely correction . T o take full advantage advantage of the of the functions of visual FoxPro, design p owerful software powerful software at the same time, as much as possible to reduce the occupiers system resources. Visual FoxPro the command structure and working methods: Visual FoxPro was originally originally called called FoxBASE, FoxBASE, the the U.S. U.S. Fox Fox Software has introduced introduced a a database products, products, in in the run on DOS, compatible with the abase family. Fox Fox Software Software Microsoft acquisition, to be developed so that it can run on Windows, and changed its name to Visual FoxPro. Visual FoxPro is a powerful relational database rapid application development tool, tool, the the the use use use of of of Visual Visual Visual FoxPro FoxPro FoxPro can can can create create create a a a desktop desktop desktop database database database applications, applications, applications, client client client / / / server server applications applications and and and Web Web Web services services services component-based component-based component-based procedures, procedures, procedures, while while while also also also can can can use use use ActiveX ActiveX controls or API function, and so on Ways to expand the functions of Visual FoxPro.1651First, work methods 1. Interactive mode of operation (1) order operation VF in the order window, through an order from the keyboard input of all kinds of ways to complete the operation order. (2) menu operation VF use menus, windows, dialog to achieve the graphical interface features an interactive operation. (3) aid operation VF in the system provides a wide range of user-friendly operation of tools, such as the wizard, design, production, etc.. 2. Procedure means of implementation VF in the implementation of the procedures is to form a group of orders and programming language, an extension to save. PRG procedures in the document, and then run through the automatic implementation of this order documents and award results are displayed. Second, the structure of command 1. Command structure 2. VF orders are usually composed of two parts: The first part is the verb order, also known as keywords, for the operation of the designated order functions; second part of the order clause, for an order that the operation targets, operating conditions and other information . VF order form are as follows: 3. <Order verb> "<order clause>" 4. Order in the format agreed symbols 5. 5. VF in the order form and function of the use of the symbol of the unity agreement, the meaning of VF in the order form and function of the use of the symbol of the unity agreement, the meaning of these symbols are as follows: 6. Than that option, angle brackets within the parameters must be based on their format input parameters. 7. That may be options, put in brackets the parameters under specific requ ests from users choose to enter its parameters. 8. Third, the project manager 9. Create a method 10. command window: CREA T PROJECT <file name> T PROJECT <file name> 11. Project Manager 12. tab 13. All - can display and project management applications of all types of docume nts, "All" tab contains five of its right of the tab in its entirety . 14. Data - management application projects in various types of data files, databases, free form, view, query documents. 15. Documentation - display 原文请找腾讯原文请找腾讯3249114六,维^论~文.网 , statements, documents, labels and other documents. 16. Category - the tab display and project management applications used in the class library documents, including VF's class library system and the user's own design of the library. 17. Code - used in the project management procedures code documents, such as: program files (. PRG), API library and the use of project management for generation of applications (. APP). 18. (2) the work area 19. The project management work area is displayed and management of all types of document window. 20. (3) order button 21. Project Manager button to the right of the order of the work area of the document window to provide command. 22. 4, project management for the use of 23. 1. Order button function 24. New - in the work area window selected certain documents, with new orders button on the new document added to the project management window. 25. Add - can be used VF "file" menu under the "new" order and the "T ools" menu under the "Wizard" order to create the various independent paper added to the project manager, unified organization with management. 26. Laws - may amend the project has been in existence in the various documents, is still to use such documents to modify the design interface. 27. Sports - in the work area window to highlight a specific document, will run the paper.28. Mobile - to check the documents removed from the project. 29. 29. Even Even Even the the the series series series - - - put put put the the the item item item in in in the the the relevant relevant relevant documents documents documents and and and even even even into into into the the the application application executable file. Database System Design :Database design is the logical database design, according to a forthcoming data classification system and the logic of division-level organizations, is user-oriented. Database design needs of various departments of the integrated enterprise archive data and data needs analysis of the relationship between the various data, in accordance with the DBMS. 管理信息系统概要管理信息系统概要管理信息系统就是我们常说的MIS （Management Information System ），是一个由人、计算机等组成的能进行信息的收集、传送、储存、维护和使用的系统，在强调管理，强调信息的现代社会中它越来越得到普及。

学生公寓管理系统--外文翻译)外文翻译本科毕业设计(论文1本科毕业设计(论文)外文翻译2本科毕业设计(论文)外文翻译3原文:The anesthesia information management system for electronicdocumentation: what are we waiting for?ERIC LAIMS and reasons for its useFor many hospital administrators and chief executive officers, the operating room is a black box. Patients may have common diagnoses and undergo common surgical procedures, but they often have diverse outcomes and different costs associated with their care. The reasons for the disparity are often multifaceted and not well defined. The current medical records system lacks the ability to define and compare outliers, thereby hindering analysis. Furthermore, many medical centers must maintain the high level of care in their practices without effecting change (operating at fixed costs), while reimbursement continually decreases relative to inflation (capitated markets). An AIMS potentially can bridge this economic gap by providing critical data useful forscheduling, operating room use, material management, and improved use of resources in a declining reimbursement environment.The electronic revolution enters this environment. As a medical specialty, anesthesiahas always embraced new technologies, such as the automated blood pressure cuff, invasive monitoring, and monitors that record physiologic trends. Early anesthesia record-keepers were able to obtain data from monitors, and anesthesiologists were able to create an electronic record instead of a paper record. The layout of the electronic record was similar to that of the customary paper record,thereby providing a format that was familiar to the Anesthesiologist.With an AIMS, in addition to physiologic data, other information such as surgical time, cost of medication, resources used, and quality assurance data can be recorded. Many departments have described their experiences with these systems and reported the corresponding cost-efficiencies that resulted from electronic data collation and the use of a simulation model. Moreover, electronic systems can search for patient allergies or identify improper drug dosages or contraindications. The system can verify provider attendance during procedures, as required by the Health Care Financing Administration in the United States. In addition, some systems (institutionally or commercially developed) offer a preoperative data entry system that can storeanesthetic histories and physical examination findings, and may be used to review preoperative laboratory data and medical histories.The ergonomics of newer AIMS have improved as computer technologyhas advanced; in contrast to the traditional keyboard method of data entry, barcoded materials and data entry with a touch screen or mouse are now available, and voice-activated systems are being refined. Electronic delivery systems allow the caregiver to administer medication without manually documenting the entry. These systems are electronically linked to the anesthesia equipment at the point of care, but departments can also use them to document anesthesia procedures in variouslocations .Monitoring equipment typically sends data in a unique andproprietary format through its RS232 ports. Newer monitors adhere to a common standard (e.g., universal serial bus [USB]), and today’s AIMS can collate and analyze data. Many ofthese physiologic monitors are linked via a network (e.g., localarea network or intranet) to servers that retain backup copies of the data. Duplicate copies of data are required for the mission-critical function of the operating room.The United States Institute of Medicine Guidelines for an electronic health record system The Institute of Medicine in the United States issued a report in 2003 that detailed the key capabilities of an EMR system . It should provide: (1) longitudinal collection of patient data;(2) immediate access by authorized users; (3) information to aid in decision-making throughout the continuum of patient care; and (4) support for efficient healthcare delivery. The guidelines furtherdivided the EMR into primary and secondary applications . Patient care, management, support processes, financial and administrative processes, and patient self-management are considered1本科毕业设计(论文)外文翻译primary applications. Secondary applications include education, regulation, research,public health, and policy support.Primary application of an AIMS would omit patient self-management, but otherwise would comply with the guidelines described above. Similarly, secondary applications would also include education, regulation, and research. If an AIMS had a greater role, one could argue favorably about its role in public health and policy support. Bothpublic policy and public health are affected by the issue of what types of providers administer anesthesia. Aspects of anesthesiology that are important to public health (for example, whether changes in the quality of care occur when anesthesia is administered by a physician, a nurse anesthetist, or a physician and nurse anesthetist as a team, as performed in the United States and some European countries) can be analyzed using data from an AIMS. Furthermore, the role of the anesthesiologist assistant is evolving, and an AIMS may help define it. The increased accuracy in documentation that would result from the use of an AIMS will be necessary to determine policy support of an anesthesia care team.The Institute of Medicine has recommended time lines for the implementation of electronic medical record keeping. Guidelines for implementing an electronic system to record health data, results management, and order entry, as well as improve electronic communication, decision support, patient support, administrative processes, and population health management reporting, are slated for completion by the year 2010. The United States government has also supported an aggressive time line. Will this happen? Or will skeptics still rule the playingfield ?Advantages of an AIMSThe patient record is extremely important and must be carefully chronicled with every anesthetic procedure. The anesthetic record is used for patient care during anesthesia administration and in the post anesthesia care unit (PACU), the intensive care unit (ICU), and the postsurgical ward. The recorded information is used for billing, tabulating patient statistics, and reviewing previous anesthetic procedures. Finally, advances in quality improvement methods assist in peer review and legal defense.There are many advantages of an AIMS, including (1) capturing datain real time; (2) alerting the anesthesia provider of deviations from preset physiologic limits; (3) communicating with various patient databases; and (4) generating an accurate, understandable record at the end of the procedure. In certain instances, the EMR has enabled the identification of missing or incorrect data and thereby led to qualityimprovement. A study of manual and automated documentation during anesthesia procedures showed that, with an AIMS, 18.7% of anesthesia administrations had recorded adverse events versus 5.7% of administrations documented manually. Additional advantages of EMRs over manual records include immediate and simultaneous data access for authorized users, error checking, recovery of files from backup sources, definitions of billing and patient care for database entry, and integration of records into a searchable patient database . Table 1 provides example functions of an AIMS. Moreover, an AIMS can overcome problems with illegible handwriting and transcription errors. Nevertheless, electronic record-keeping systemsdo fail from time to time, although that frequency is not documented. Everyone must be prepared to document manually if the AIMS is unavailable.1.Automated collection of physiologic data from the operating roomin flowsheet format (a time-honored format designed by Harvey Cushing, circa 1900s)2.Mission-critical functionality3.Emergency provisions for charting4.Database for queries and analysis5.Electronic billing6.Cost analysis7.Ability to print hard copies (black and white or color; 1- or 2-sided pages)8.Electronic signature (e.g., authentication by biometric characteristic or password)9.Secure data entry, storage, transfer, and access10.Audit trails11.Preoperative and postoperative documentation12.Procedure documentation (e.g., central venous pressure, epidural anesthesia, spinal anesthesia, regional block anesthesia)5本科毕业设计(论文)外文翻译13.Ability to use in remote areas distant from the operating room(e.g., endoscopy suite, radiology suite, emergency department)14.Full integration with other systems in the medical center (orwell interfaced)Total integration of an AIMS into the hospital information network Hospital administrators must consider merging an AIMS into the main body of the information network as a totally integrated system instead of an interfaced system. First, data should have seamless passage from one area or specialty to another. For example, after echocardiography is performed in the cardiology suite images should be instantly accessible by the anesthesia provider evaluating the patient for surgery. Similarly the anesthesia provider should be able to access laboratory data, consultations, pulmonary function test results and patient history at any time.Second, the resources required to support an integrated system are reduced when compared with maintaining an interfaced system because the information management team can be centralized with the mission to keep the whole system functioning. Otherwise, each proprietary system would require product-specific technology specialists for service. For AIMSs, which have a mission-critical function, the technical support staf would need to be available on a 24-h basis, resulting in high personnel costs.Third, if a fully integrated medical system is supported by a large medical informatics vendor, future upgrades and improvements can reasonably be assured. Some vendors offer real-time data acquisitionthat can be integrated with other aspects of the hospital information system, but many vendors do not. However, if products from multiple vendors are used in a noninte-grated system, upgrades may be dif, cult or impossible. For example, a newly acquired piece of operating room equipment(e.g., a system to record and view radio-graphic studies or transesophageal echocardiography images) may be only partially supported by a company for integration into its monitoring system. The AIMS vendor would need to create a driver to help interpret the data recorded bythis device or to import data. Ensuring timely access to data can be a concern, but such problems can be solved by sharing data within networks only on an intermittent basis. Networks currently are designed with a gigabit network bandwidth to ensure that data access is not compromised by the retrieval of information by others. Echocardiographic and otherradiology studies are accessible through a separate network backbone. In both integrated platforms and interfaced platforms, a high-gigabit network bandwidth enables one to transfer data from elsewhere without interrupting data capture with AIMS.Fourth, a fully integrated system provides the ability to analyze how the process of anesthesia and surgery fit into a medical center’s overall mission. Benchmarks fordata could be established, and the costs and resources needed could be determined. The whole process of healthcare delivery could be analyzed, and these data could be provided to state and government regulatory agencies or third-party payers (e.g., insurers). However, anesthesia departments often are fearful of how these data might be used and are concerned about potentially punitive outcomes. Nevertheless, in today’s high-priced medical environment, if these crucial data are not provided, solutions to problems will ultimately be generated by administrators and chief executive officers with minimal or no knowledge of the anesthesia process.6。

中英文资料外文翻译Internet of Things1.the definition of connotationThe English name of the Internet of Things The Internet of Things, referred to as: the IOT.Internet of Things through the pass, radio frequency identification technology, global positioning system technology, real-time acquisition of any monitoring, connectivity, interactive objects or processes, collecting their sound, light, heat, electricity, mechanics, chemistry, biology, the location of a variety of the information you need network access through a variety of possible things and things, objects and people in the Pan-link intelligent perception of items and processes, identification and management. The Internet of Things IntelliSense recognition technology and pervasive computing, ubiquitous network integration application, known as the third wave of the world's information industry development following the computer, the Internet. Not so much the Internet of Things is a network, as Internet of Things services and applications, Internet of Things is also seen as Internet application development. Therefore, the application of innovation is the core of the development of Internet of Things, and 2.0 of the user experience as the core innovation is the soul of Things.2.The meaning of "material"Where the "objects" to meet the following conditions can be included in the scope of the "Internet of Things":1. Receiver have the appropriate information;2. Have a data transmission path;3. Have a certain storage capabilities;4. To have the CPU;5．To have the operating system;6. Have specialized applications;7. Have a data transmitter;8. Follow the communication protocol of Things;9. World Network, a unique number that can be identified.3. "Chinese style" as defined inInternet of Things (Internet of Things) refers to is the ubiquitous (Ubiquitous) terminal equipment (Devices) and facilities (Facilities), including with the "inner intelligence" sensors, mobile terminals, industrial systems, floor control system, the family of Intelligentfacilities, video surveillance systems, and external can "(Enabled), such as RFID, a variety of assets (the Assets), personal and vehicle carrying the wireless terminal" intelligent objects or animals "or" smart dust "(the Mote), through a variety of wireless and / or cable over long distances and / or short-range communication networks to achieve interoperability (M2M), application integration (the Grand Integration), and based on cloud computing, SaaS operation mode, in internal network (intranet), private network (extranet), and / or the Internet (Internet) environment, the use of appropriate information security mechanisms to provide a safe, controlled and even personalized real-time online monitoring, retrospective positioning, alarm linkage, command and control plan management, remote control, security, remote repair and maintenance, online upgrades, statistical reporting, decision support, the leadership of the desktop (showcase of the Cockpit Dashboard) management and service functions, "Everything," "efficient, energy saving, security environmental protection, "" possession, control, Camp integration [1].4.EU definitionIn September 2009, the Internet of Things and enterprise environments held in Beijing, China-EU Seminar on the European Commission and Social Media Division RFID Division is responsible for Dr. Lorent Ferderix, given the EU's definition of things: the Internet of Things is a dynamic global network infrastructure, it has a standards-based and interoperable communication protocols, self-organizing capabilities, including physical and virtual "objects" of identity, physical attributes, virtual features and smart interface and seamless integration of information networks .Internet of Things Internet and media, the Internet and business Internet one, constitute the future of the Internet.5．changeThe Internet of Things (Internet of Things) the word universally recognized at home and abroad Ashton, Professor of the MIT Auto-ID Center in 1999 first proposed to study RFID. The report of the same name released in 2005, the International Telecommunication Union (ITU), the definition and scope of the Internet of Things has been a change in the coverage of a larger expansion, no longer refers only to the Internet of Things based on RFID technology.Since August 2009, Premier Wen Jiabao put forward the "Experience China" Internet of Things was officially listed as a national one of the five emerging strategic industries, to write the "Government Work Report" Internet of Things in China has been the great concern of the society as a whole degree of concern is unparalleled in the United States, European Union, as well as other countries.The concept of Internet of Things is not so much a foreign concept, as it has been the concept of a "Made in China", his coverage of the times, has gone beyond the scope of the 1999 Ashton professor and the 2005 ITU report referred to, Internet of Things has been labeled a "Chinese style" label.6．BackgroundThe concept of Internet of Things in 1999. Internet-based, RFID technology and EPC standards, on the basis of the computer Internet, the use of radio frequency identification technology, wireless data communication technology, a global items of information to real-time sharing of the physical Internet "Internet of things" (referred to as the Internet of Things) , which is also the basis of the first round of the China Internet of Things boom set off in 2003.The sensor network is built up based on sensing technology network. Chinese Academy of Sciences in 1999 on the start sensor network research and has made some achievements in scientific research, the establishment of applicable sensor network.1999, held in the United States, mobile computing and networking International Conference, "The sensor network is a development opportunity facing humanity in the next century. In 2003, the United States, "Technology Review" proposed sensor network technology will be future changes ten people's lives first.November 17, 2005, the WSIS held in Tunis (WSIS), the International TelecommunicationUnion released ITU Internet Report 2005: Internet of Things ", citing the concept of the" Internet of things ". The report pointed out that the ubiquitous "Internet of Things" communication era is approaching, all the objects in the world, from tires to toothbrushes, from housing to the tissue via the Internet, take the initiative to be exchanged. Radio Frequency Identification (RFID), sensor technology, nanotechnology, intelligent embedded technology will be more widely used.According to the description of the ITU, the era of things, a short-range mobile transceivers embedded in a variety of daily necessities, human beings in the world of information and communication will receive a new communication dimension, from any time communication between people of the place of connection extended to the communication connection between persons and things and things and things. The Internet of Things concept of the rise, largely due to the International Telecommunication Union (ITU), the title of Internet of Things 2005 annual Internet Report. However, the ITU report the lack of a clear definition of Things.Domestic Internet of Things is also there is no single standard definition, but the Internet of Things In essence, the Internet of Things is a polymer application of modern information technology to a certain stage of development and technological upgrading of various sensing technology modern network technology and artificial intelligence and automation technology aggregation and integration of applications, so that the human and material wisdom of dialogue to create a world of wisdom. Because the development of the Internet of Things technology, involving almost all aspects of IT, innovative application and development of a polymer, systematic, and therefore be called revolutionary innovation of information industry. Summed up the nature of the Internet of Things is mainly reflected in three aspects: First, the Internet features that need to be networked objects must be able to achieve the interoperability of the Internet; identification and communication features, that is included in the Internet of Things "objects" must to have the functions of automatic identification and physical objects communication (M2M); intelligent features, the network system should have automated, self-feedback and intelligent control features January 28, 2009, Obama became the President of the United States, held with U.S. business leaders a "round table", as one of the only two representatives, IBM CEO Sam Palmisano for the first time that "the wisdom of the Earth" this concept, it is recommended that the new government to invest in a new generation of intelligent infrastructure.February 24, 2009 news, IBM Greater China CEO money crowd called "Smarter Planet"strategy announced in the forum 2009IBM.This concept was put forth, that is the great concern of the United States from all walks of life, and even analysts believe that IBM's vision is very likely to rise to U.S. national strategy, and caused a sensation in the world. IBM believes that the industry, the next phase of the mission is to make full use of the new generation of IT technology in all walks of life among specifically, is the embedded sensors and equipment to the power grid, railways, bridges, tunnels, highways, buildings, water supply systems dams, oil and gas pipelines and other objects, and is generally connected to the formation of Things.Strategy conference, IBM, and implant the concept of "wisdom" in the implementation of the infrastructure, strong, not only in the short term to stimulate the economy, promote employment, and in a short period of time for China to build a mature wisdom infrastructure platform.IBM "Smarter Planet" strategy will set off again after the wave of Internet technology industrial revolution. Former IBM CEO Lou Gerstner has raised an important point of view, every 15 years, a revolution in computing model. This judgment is the same as Moore's Law accurately call it a "15-year cycle Law". Before and after 1965, changes to the mainframe as a symbol, 1980 marked by the popularization of personal computers, 1995, the Internet revolution. Each such technological change are caused by the enterprise, industry and even the national competitive landscape of major upheaval and change. To a certain extent in the Internet revolution is ripening by the "information superhighway" strategy. 1990s, the Clinton administration plan for 20 years, $ 200 billion to -4000 billion, construction of the U.S. National Information Infrastructure, to create a huge economic and social benefits.Today, the "Smarter Planet" strategy by many Americans that there are many similarities with the "information superhighway", the same they revive the economy, a key strategy for competitive advantage. The strategy can be set off, not only for the United States, such as the Internet revolution was the wave of technological and economic concern, more attention from the world."Internet of Things prospects are very bright, it will dramatically change our current way of life." Demonstration director of the Center of Nanjing University of Aeronautics and Astronautics, National Electrical and Electronic Zhao Guoan said. Industry experts said that the Internet of things to our life personification of the things became a kind of human.Goods (goods) in the world of physical objects associated with each other "exchange", without the need for human intervention.The Internet of Things using radio frequency identification (RFID) technology, to achieve the interconnection and sharing of the automatic identification of goods (products) and information through the computer Internet. It can be said that the Internet of Things depict the world is full of intelligent. In the world of Internet of Things, material objects connected to the dragnet.The second session, held at Peking University in November 2008, China Mobile Government Seminar "Knowledge Society and Innovation 2.0", the experts made the mobile technology, the Internet of Things technology led to the development of economic and social form, innovative forms of change, and promote the The next generation of innovation for the knowledge society as the core of user experience (innovative 2.0) the formation of innovation and development of the form to pay more attention to the user to focus on people-oriented. Research institutions is expected to 10 years, the Internet of Things may be mass adoption of this technology will develop into one of thousands of yuan-scale high-tech market, the industry than the Internet 30 times.It is learned that the things industry chain can be broken down into the identity, perception, processing and information transfer, four links, each link of the key technologies for the wireless transmission network of RFID, sensors, smart chip and telecom operators. EPOSS in the "Internet of Things in 2020" report, an analysis predicted that the future development of the Internet of Things will go through four stages, 2010, RFID is widely used in the field of logistics, retail and pharmaceutical objects interconnect 2010 to 2015, 2015 ~ In 2020, the object into the semi-intelligent, intelligent objects into 2020.As the vanguard of the Internet of Things, RFID has become the most concerned about the technology market. The data show that the global RFID market size in 2008 from $ 4.93 billion in 2007 rose to $ 5.29 billion, this figure covers all aspects of the RFID market, including tags, readers and other infrastructure, software and services. RFID card and card-related infrastructure will account for 57.3 percent of the market, reaching $ 3.03 billion. Application from financial and security industries will drive the market growth of RFID cards. Analysys International forecasts, the Chinese RFID market size in 2009 will reach 5.0 billion, a CAGR of 33%, in which the electronic tag is more than 3.8 billion yuan, the reader close to 700 million yuan, software and services market to reach 500 million yuan pattern.MEMS is the abbreviation of the micro-electromechanical systems, MEMS technology is built on the basis of micro / nano, the market prospect is broad. The main advantage of the MEMS sensoris the small size, large-scale mass production cost reduction, mainly used in two major areas of automotive and consumer electronics. Under ICInsight the latest report is expected in 2007-2012, global sales of semiconductor sensors and actuators based on MEMS will reach 19 percent compound annual growth rate (CAGR), compared with $ 4.1 billion in 2007 to five years will achieve $ 9.7 billion in annual sales.7．PrincipleInternet of Things is on the basis of the computer Internet, RFID, wireless data communications technology, to construct a cover everything in the world's "Internet of Things". In this network, the goods (products) to each other "exchange", without the need for human intervention. Its essence is the use of radio frequency identification (RFID) technology to achieve the interconnection and sharing of the automatic identification of goods (products) and information through the computer Internet.The Internet of Things is a very important technology is radio frequency identification (RFID) technology. RFID is radio frequency identification (Radio Frequency Identification) technology abbreviation, is an automatic identification technology in the 1990s began to rise, the more advanced a non-contact identification technology. The development of RFID technology based on a simple RFID system, combined with existing network technology, database technology, middleware technology, to build a one composed by a large number of networked readers and numerous mobile label, much larger than the Internet of Things trend.RFID, It is able to let items "speak" a technique. In the "Internet of Things" concept, RFID tags are stored in the specification and interoperability information collected automatically by wireless data communications network to a central information system, to achieve the identification of goods (products), and then through the open computer network for information exchange and sharing, items "transparent" management.The information technology revolution in the Internet of Things is referred to as IT mobile Pan of a specific application. Internet of Things through IntelliSense, identification technology and pervasive computing, ubiquitous network convergence applications, breaking the conventional thinking before, human beings can achieve ubiquitous computing and network connectivity [3]. The traditional thinking has been the separation of physical infrastructure and IT infrastructure: on the one hand, airports, roads, buildings, while on the other hand, the data center, PC, broadband. In theera of the "Internet of Things", reinforced concrete, cable with the chip, broadband integration into a unified infrastructure, in this sense, the infrastructure is more like a new site of the Earth, the world really works it, which including economic management, production operation, social and even personal life. "Internet of Things" makes it much more refined and dynamic management of production and life, to manage the future of the city to achieve the status of "wisdom" to improve resource utilization and productivity levels, and improve the relationship between man and nature. 8．Agency1, institution-buildingAs the first national Internet of Things industry community organizations - the application of professional Committee of China Electronic Chamber of Things technology products (referred to as: "objects of the IPCC"), the Ministry of Civil Affairs in June 2010, preliminary approved by the Ministry of August being reported that the Ministry of Civil Affairs for final approval.2, the main taskServe as a bridge between business and government to assist the Government of the industry guidance, coordination, consultation and services to help members to reflect the business requirements to the Government; coordinate the relationship between enterprises to strengthen technical cooperation, product distribution, the elimination of vicious competition ; supervision of members the correct implementation of national laws and regulations, to regulate the industry; member of information communication technology products, cooperation, resource sharing, capital operation, and promote the application of Internet of Things technologies and products, and promote the Internet of Things industrial scale , co-development.9．ConstructionInternet of Things in the practical application to carry out requires the involvement of all walks of life, and need the guidance of the national government as well as related regulations and policies to assist the launching of the Internet of Things has the scale, broad participation, management, technical, and material properties, etc. other features, the technical problem is the most crucial issues of Things billion Bo logistics consulting, Internet of Things technology is an integrated technology, a system not yet which company has overall responsibility for network planning and construction of the entire system, theoretical studies have commenced in all walks of life and the practical application is limited to within the industry. The key is on the planning and design andresearch and development of the Internet of Things research in the field of RFID, sensors, embedded software, and transmission of data calculation. In general, to carry out the steps of the Internet of things mainly as follows:(1) identified the object attributes, properties, including static and dynamic properties of the static property can be stored directly in the label, the dynamic properties need to start with sensors to detect real-time;(2) the need to identify the equipment to complete the reading of object attributes, and information into a data format suitable for network transmission;(3) the object of information transmitted over the network to the information processing center (processing center may be distributed, such as home computers or mobile phones, may also be centralized, such as China Mobile IDC) by the processing center to complete the object communication calculation.10．key areasInternet of Things 4 key areas:(1) RFID;(2) sensor network;(3) The M2M;(4) integration of the two.11.TrendIndustry experts believe that the Internet of things on the one hand can improve economic efficiency and significant cost savings; the other hand, can provide technical impetus to global economic recovery. Currently, the United States, the European Union are all invested heavily in-depth study to explore the Internet of Things. The country is also highly concerned about the emphasis of Things, Industry and Information Technology Ministry in conjunction with the relevant departments are conducting research in a new generation of IT to the formation of policies and measures to support the development of a new generation of IT.China Mobile CEO Wang Jianzhou has repeatedly mentioned the Internet of Things will become the focus of future development of China Mobile. He will be invited to Taiwan to produce RFID, sensors and bar code manufacturers and China Mobile. According to him, the use of the Internet of Things technology, Shanghai Mobile has a number of industrial customers tailor the datacollection, transmission, processing and business management in one set of wireless application solutions. The latest data show that Shanghai Mobile has more than 100,000 chips mounted on a taxi, bus, various forms of matter networking applications in all walks of prowess, to ensure the orderly operation of the city. During the Shanghai World Expo, "the bus services through" will be fully applied to the Shanghai public transport system, the smooth flow traffic to the most advanced technology to protect Expo area; for logistics transportation management, e-logistics ", will provide users with real-time accurate information of Cargo, vehicle tracking and positioning, the transport path selection, logistics network design and optimization services greatly enhance the comprehensive competitiveness of logistics enterprises.In addition, the popularization of the "Internet of Things" for the number of animals, plants and machinery, sensors and RFID tags of items and related interface devices will greatly exceed the number of mobile phones. The promotion of the Internet of Things will become a drive to promote economic development for the industry to open up a potential development opportunities. According to the current demand on the Internet of Things, in recent years, billions of sensors and electronic tags, which will greatly promote the production of IT components, while increasing the number of job opportunities.According to reports, it is necessary to truly build an effective Internet of things, there are two important factors. First, the scale, only with the scale to make the items of intelligence play a role. For example, a city of one million vehicles, if we only 10000 vehicles installed on the smart system, it is impossible to form an intelligent transportation system; two mobility items are usually not static, but in the state of the movement , we must maintain the items in the state of motion, and even high-speed motion state can at any time for dialogue.FORRESTER of the authority of the U.S. advisory body predicted that 2020, the world of business of the Internet of Things, compared with the business of interpersonal communication, will reach 30 to 1, so the "Internet of Things" is known to be the next one trillion communications services.Internet of Things heat wave Why is rapidly growing in China? Internet of Things in China rapid rise thanks to the several advantages of our country in terms of things.In the early 1999 launched the Internet of Things core sensor network technology research, R & D level in the world; the second, sensor network field in the world, China is the standard one ofthe dominant country, the patent owner; third China is one of the countries to achieve a complete industrial chain of Things; Fourth, China's wireless communications network and broadband coverage provides a solid infrastructure to support the development of the Internet of Things; Fifth, China has become the world's first the three major economies, with strong economic strength to support the development of the Internet of Things.12.MythThe current understanding of the Internet of things there are a lot of misunderstanding, which is also a direct impact on our understanding of Things on the development of the logistics industry, it is necessary first to distinguish errors, clarify our thinking.One sensor networks or RFID network equivalent of Things. The fact that sensor technology, or RFID technology, or are simply one of the information collection technology. In addition to the sensor technology and RFID technology, GPS, video recognition, infrared, laser, scanning can be achieved automatically identify physical objects to communicate technical information collection technology can become the Internet of Things. Sensor networks or RFID network is just an application of Things, but not all of Things.Second, the Internet of Things as a myriad of unlimited extension of the Internet of Things as a completely open for all things, all of the interconnections, all shared Internet platform.In fact, the Internet of Things is not simple infinite extension of the global sharing of the Internet. Even if the Internet is also not only refers to we typically think of the international sharing computer network, Internet, WAN and LAN. Internet of Things can be both an extension of our usual sense of the Internet to the matter; LAN, professional can also be based on real needs and industrial applications. The reality is not necessary and can not make all the items networking; no need to make professional, LAN must be connected to the global Internet sharing platform. Of things in the future the Internet will be very different from the professional network of similar smart logistics, smart transportation, smart grid; the intelligence community and other local area network is the largest use of space.Ter, that the ubiquitous network of the Internet of Things Internet of Things, and therefore the Internet of Things is a castle in the air, is difficult to achieve the technology. In fact the Internet of things are real, many of the primary Internet of Things applications already for our services. The Internet of Things concept is introduced in many real-world applications based on polymericintegrated innovation, pre-existing network with the Internet of Things, intelligent, automated system, summarized and upgrading it upgraded from a higher perspective our knowledge.Four of Things as a basket, and everything installed inside; based on self-awareness, and only be able to interact, communication products as the Internet of Things applications. For example, just embedded some of the sensors, to become the so-called Internet of Things appliances; products labeled with RFID tags, became the Internet of Things applications.esThings widely used throughout the intelligent transportation, environmental protection, government, public safety, peace at home, smart fire, industrial monitoring, environmental monitoring, elderly care, personal health, floriculture, water monitoring, food traceability, enemy detection and intelligence collection and other fields.International Telecommunication Union in 2005, a report has portrayed the picture of the era of the "Internet of Things": car when the driver operational errors will automatically alarm; briefcase will remind the owner forgot something; clothes will "tell" washing machine color and water temperature requirements. Billion Bo logistics consulting vivid introduction of Things in the logistics field, for example, a logistics company, application of Things truck, when loading overweight, the car will automatically tell you overloaded and overload how many, but the space remaining , the severity of goods with how to tell you; when handling staff unloading a cargo packaging may be shouting "throw you hurt me", or "My dear, you do not get too barbaric, you can?"; when the driver and others gossip, trucks will pretend boss's voice roaring "stupid, the grid!Internet of things to make full use of a new generation of IT technology in all walks of life among, specifically, is embedded sensors and equipment to the power grid, railways, bridges, tunnels, highways, buildings, water systems, dams, oil and gas pipelines, etc.kinds of objects, and then "Internet of Things" with the existing Internet to integrate and realize the integration of human society and the physical system, which in this integrated network, there is the ability to super-powerful central computer cluster, integrated network staff implementation of real-time management and control of the machinery, equipment and infrastructure, on this basis, the human can be more refined and dynamic management of production and life, to achieve the status of the "wisdom", to improve resource utilization and productivity levels, and improve human the relationship between the natural.。

管理的角色和技能管理角色亨利·明茨伯格对执行者行为的研究让他得出这样的结论:经理都需要承担大量的角色。

一个角色是一组预期的行为对一个特定的位置。

明茨伯格的角色可以分为三大类如图1.1所示:信息角色(管理信息);人际角色(管理通过人)和决策角色(管理行动)。

每个角色代表活动经理承担最终完成的功能规划、组织、领导、控制。

重要的是要记住,真正的工作的管理不能练习作为一组独立的部分;所有的角色交互的方式在现实世界的管理。

图1.1 管理角色信息角色描述活动用来维持和发展一个信息网络。

这三个信息角色监督者、传播者和发言人。

监督者涉及从许多来源寻求当前的信息。

经理获得信息来自他人和扫描书面材料来保持消息灵通。

传播者和发言人的角色是正好相反。

经理把当前信息传递给他人,内部和外部的组织,才能使用它。

与授权趋势的低级别员工,很多经理都共享尽可能丰富的信息。

由于人际角色让经理们被叫去与众多组织和个人交互。

这三个人际角色是挂名首脑、领袖和交流与合作者。

这个挂名首脑角色专注于管理正式的和象征性的活动的部门或组织。

经理代表本组织在他或她作为单位的负责人的正式管理能力。

领导的作用是指经理的工作在激励下属,以满足单位的目标。

交流与合作者的作用来自于经理的责任与各种团体在组织内外交流。

一个例子是一个面对面讨论控制器和计划主管之间解决关于预算的一种误解。

决策角色指管理的决策过程。

这些角色通常需要概念以及人类的技能。

这四种管理角色都属于这一类企业家,障碍处理者,资源分配者,谈判代表。

一个管理者承担一个企业家的角色当他或她启动项目来提高部门或工作单位时。

当问题比如错过了交付关键客户的出现,经理必须采用一个障碍处理的角色。

决定如何分配单位的金钱、时间、材料和其他资源,称为经理的资源分配角色。

最后,谈判者角色指的是这种情况,经理必须代表单位和其他人的利益,如供应商、客户和政府。

根据一篇经典文章由罗伯特·l·卡茨,管理上的成功主要取决于性能而不是人格特质。

信息管理与信息系统专业英语英文回答：Information Management and Information Systems.Information management is the collection, storage, organization, and dissemination of information. It is a critical function for any organization, as it allows for the effective use of information to make decisions and achieve goals. Information systems are the tools and technologies used to manage information. They can range from simple spreadsheets to complex enterprise resource planning (ERP) systems.The field of information management and information systems is constantly evolving, as new technologies emerge and new ways of working are developed. This has led to a growing demand for professionals with the skills and knowledge to manage information effectively.Skills and Knowledge Required for Information Management and Information Systems Professionals.Professionals in the field of information management and information systems typically need to have the following skills and knowledge:A strong understanding of information management concepts and principles.Proficiency in a variety of information systems software applications.Excellent communication and interpersonal skills.The ability to work independently and as part of a team.A strong work ethic and a commitment to excellence.Career Opportunities for Information Management and Information Systems Professionals.There are a wide range of career opportunitiesavailable for professionals with skills and knowledge in information management and information systems. Some of the most common job titles include:Information manager.Information systems manager.Database administrator.Systems analyst.Business analyst.Project manager.Professionals in these roles can work in a variety of industries, including healthcare, finance, manufacturing, and government.Education and Training for Information Management and Information Systems Professionals.There are a variety of educational and training programs available for professionals who want to work inthe field of information management and information systems. Some of the most common programs include:Bachelor's degree in information management or information systems.Master's degree in information management orinformation systems.MBA with a concentration in information management or information systems.Certificate programs in information management or information systems.Professional Development for Information Management and Information Systems Professionals.In order to stay up-to-date on the latest trends and technologies in the field of information management and information systems, professionals should pursue ongoing professional development. This can be done through a variety of activities, such as:Attending conferences and workshops.Reading industry publications.Taking online courses.Participating in online forums and discussion groups.中文回答：信息管理与信息系统专业。

中英文对照翻译信息管理系统对于“管理信息系统”并没有一致的定义。

一些作者喜欢用其他术语代替，例如：“信息处理系统”“信息与决策系统”“组织信息系统”，或者干脆将“信息系统”用组织内具有支持操作、管理、决策职能的计算机信息处理系统代替。

这篇文章使用“管理信息系统”一词，是因为它是通俗易懂的，当涉及组织信息系统时也常用“信息系统”代替“管理信息系统”。

一个管理信息系统的定义，通常被理解为：一种集成用户机器系统，为组织提供信息支持运作、管理、决策职能。

该信息系统利用计算机硬件和软件；手工处理程序；模拟分析法计划、控制和决策；和数据库。

事实上，它是一个集成系统并不意味着它是单一的，单块集成结构；相反，它意味着零件适合加入整体设计。

内容定义如下：计算机为主的用户机器系统理论上，管理信息系统可以脱离计算机上而存在，但是计算机的存在可以让管理信息系统可行。

问题不是计算机是否被使用在管理信息系统中，而是信息的使用被计算机化的程度。

用户机器系统的概念暗示了, 一些任务最好由人执行, 其他的最好由机器做。

MIS的使用者是那些负责输入输入数据、指示系统或运用系统信息产品的人。

因为许多问题，用户和计算机建立了一个联合系统，其结果通过一套在计算机和用户之间的相互作用得到。

用户机器的相互作用是由用户连接在计算机上的输入-输出设备（通常是一个视觉显示终端）推动的。

计算机可以使一台个人机器服务于一名用户或者一台大规模的机器为一定数量通过终端由通信线路连接的用户服务。

用户输入-输出设备允许直接输入数据和紧接着输出结果。

例如：一个人使用计算机交互的在金融理财上通过在终端键盘输入提交“如果什么，怎么办？”之类的问题，结果几秒钟后便被显示在屏幕上。

MIS的计算机为主的用户机器特征影响系统开发商和系统用户的知识要求。

“计算机为主”意味着管理信息系统的设计者必须拥有计算机和对处理有用的知识。

“用户机器”的概念意味着系统设计者也应该了解人作为系统组成部分（信息处理器）的能力和人作为信息使用者的行为。

1. informationInformation, in its most restricted technical sense, is a sequence of symbols that can be interpreted as a message. Information can be recorded as signs, or transmitted as signals. Information is any kind of event that affects the state of a dynamic system. Conceptually, information is the message (utterance or expression) being conveyed. This concept has numerous other meanings in different contexts.[1] Moreover, the concept of information is closely related to notions of constraint, communication, control, data, form, instruction, knowledge, meaning, mental stimulus, pattern, perception, representation, and especially entropy.(信息,在其最受限制的技术意义上,是一个序列的符号,可以被解释为一个消息。

信息可以被记录为标志,或传输信号。

信息是任何类型的事件,影响一个动态系统的状态。

从概念上讲,信息是信息(话语或表达式)的表达。

这一概念具有许多其他在不同语境下的含义。

[1]此外,信息的概念密切相关的概念约束、通信、控制、数据、形式、指令、知识、意义,精神刺激,模式,感知的代表性,尤其是熵。

LearningObjectives Web Link VideoManagementWrap-up Managing the Digital FirmCase Study: DaimlerChrysler’s Agile Supply ChainSection 1.1: Why Information Systems?Why Information Systems MatterHow Much Does IT Matter?Why IT Now? Digital Convergence and the Changing Business EnvironmentSection 1.2: Perspectives on Information SystemsWhat Is an Information System?Window on Organizations:Cemex: A Digital Firm in the MakingWindow on Technology: UPS Competes Globally with Information TechnologyIt Isn’t Just Technology: A Business Perspective on Information SystemsDimensions of Information SystemsSection 1.3: Contemporary Approaches to Information SystemsTechnical ApproachBehavioral ApproachApproach of This Text: Sociotechnical SystemsSection 1.4: Learning to Use Information Systems: New Opportunities with TechnologyThe Challenge of Information Systems: Key Management IssuesIntegrating Text with Technology: New Opportunities for LearningLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Database Exercise: Adding Value to Information for ManagementDecision Making.Dirt Bikes U.S.A.: Preparing a Management Overview of the CompanyElectronic Commerce Project: Analyzing Shipping CostsGroup Project: Analyzing a Business SystemCase Study: Dollar General: Heavy on Organization, Light on SystemsLearningObjectives Web Link Video Management Wrap-upLearningObjectives Web Link VideoManagementWrap-up Information Systems in the EnterpriseCase Study: Fast Fashion, Hot SystemsSection 2.1: Major Types of Systems in OrganizationsDifferent Kinds of SystemsFour Major Types of SystemsRelationship of Systems to One AnotherSection 2.2: Systems from a Functional PerspectiveSales and Marketing SystemsManufacturing and Production SystemsWindow on Organizations:Product Life Cycle Management Systems:Faster Products, Faster ProcessesFinance and Accounting SystemsHuman Resources SystemsSection 2.3: Integrating Functions and Business Processes: Introduction to Enterprise ApplicationsBusiness Processes and Information SystemsSystems for Enterprise-Wide Process IntegrationOverview of Enterprise ApplicationsWindow on Technology: Haworth Overhauls Supply Chain ManagementSection 2.4: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Spreadsheet Exercise: Improving Supply ChainManagementDirt Bikes U.S.A.: Analyzing Financial PerformanceElectronic Business Project: Planning Transportation LogisticsGroup Project: Describing Management Decisions and SystemsCase Study: Snyder’s of Hanover: New Systems for an Old Family CompanyLearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-up Information Systems, Organizations, Management, and StrategyCase Study: Gallo Winery Leads by Blending Business with TechnologySection 3.1: Organizations and Information SystemsWhat Is an Organization?Common Features of OrganizationsUnique Features of OrganizationsWindow on Organizations:E-Commerce North and South of the BorderOrganizing the IT FunctionSection 3.2: How Information Systems Impact Organizations and Business Firms Economic ImpactsOrganizational and Behavioral ImpactsThe Internet and OrganizationsSection 3.3: The Impact of IT on Management Decision MakingHow IT Affects Management Decision MakingThe Role of Managers in OrganizationsModels of Decision MakingImplications for the Design and Understanding of Information SystemsSection 3.4: Information Systems and Business StrategyBusiness-Level Strategy: The Value Chain ModelWindow on Technology: Hotel Loyalty Programs Become CompetitiveWeaponsFirm-Level Strategy and Information TechnologyIndustry-Level Strategy and Information Systems: Competitive Forces andNetwork EconomicsSection 3.5: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Database Exercise: Using a Database for StrategicBusiness DevelopmentDirt Bikes U.S.A.: Performing a Competitive Analysis for Dirt BikesElectronic Commerce Project: Configuring and Pricing an AutomobileGroup Project: Identifying Opportunities for Strategic Information SystemsCase Study: Can Albertsons Trounce Wal-Mart with Advanced InformationTechnology?LearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-up The Digital Firm: Electronic Business and Electronic CommerceCase Study: Corrugated Supplies: The Internet Helps a Small Company Act BigSection 4.1: Electronic Business, Electronic Commerce, and the Emerging Digital Firm Internet Technology and the Digital FirmNew Business Models and Value PropositionsSection 4.2: Electronic CommerceCategories of Electronic CommerceCustomer-Centered RetailingBusiness-to-Business Electronic Commerce: New Efficiencies andRelationshipsElectronic Commerce Payment SystemsWindow on Technology: Volkswagen Revs Up Its B2B NetworkSection 4.3: Electronic Business and the Digital FirmHow Intranets Support Electronic BusinessIntranet Applications for Electronic BusinessWindow on Organizations:CARE’s Humanitarian IntranetsBusiness Process IntegrationSection 4.4: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Spreadsheet Exercise: Analyzing a Dot-Com BusinessDirt Bikes U.S.A.: Developing an E-Commerce StrategyElectronic Commerce Project: Comparing Online Storefront Hosting ServicesGroup Project: Performing a Competitive Analysis of E-Commerce SitesCase Study: Can the Music Industry Change Its Tune?LearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-up Ethical and Social Issues in the Digital FirmCase Study: “Attention Shoppers: Background Checks for Sale”Section 5.1: Understanding Ethical and Social Issues Related to SystemsA Model for Thinking About Ethical, Social, and Political IssuesFive Moral Dimensions of the Information AgeKey Technology Trends That Raise Ethical IssuesSection 5.2: Ethics in an Information SocietyBasic Concepts: Responsibility, Accountability, and LiabilityEthical AnalysisProfessional Codes of ConductSome Real-World Ethical DilemmasSection 5.3: The Moral Dimensions of Information SystemsInformation Rights: Privacy and Freedom in the Internet AgeProperty Rights: Intellectual PropertyAccountability, Liability, and ControlSystem Quality: Data Quality and System ErrorsWindow on Technology: When Software Kills: What Happened atPanama’s National Cancer InstituteQuality of Life: Equity, Access, and BoundariesWindow on Management: Can the Spamming Monster Be Tamed?Section 5.4: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Word Processing and Web Page Development ToolExercise: Creating a Simple Web SiteDirt Bikes USA: Developing a Web Site Privacy PolicyElectronic Commerce Project: Using Internet Newsgroups for Online Market ResearchGroup Project: Developing a Corporate Ethics CodeCase Study: Security Versus Privacy: Does Terrorism Change the Debate?LearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-up IT Infrastructure and PlatformsCase Study: Hong Kong’s New World Telecommunications Prospers with a New IT InfrastructureSection 6.1: IT InfrastructureDefining IT InfrastructureLevels of IT InfrastructureEvolution of IT Infrastructure: 1950–2005Technology Drivers of Infrastructure EvolutionSection 6.2: Infrastructure ComponentsComputer Hardware PlatformsOperating System PlatformsEnterprise Software ApplicationsData Management and StorageNetworking/Telecommunications PlatformsInternet PlatformsConsulting and System Integration ServicesSection 6.3: Contemporary Hardware Platform TrendsThe Integration of Computing and Telecommunications PlatformsGrid ComputingOn-Demand Computing (Utility Computing)Autonomic ComputingWindow on Management: On-Demand Computing at Qantas Airwaysand Ford Motor Company EuropeEdge ComputingSection 6.4: Contemporary Software Platform TrendsThe Rise of Linux and Open-Source SoftwareJava Is EverywhereWindow on Technology: Two Canadian Cities Go for LinuxSoftware for Enterprise IntegrationSoftware OutsourcingSection 6.5: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Spreadsheet Exercise: Evaluating Computer Hardwareand Software OptionsDirt Bikes USA: Analyzing the Total Cost of Ownership (TCO) of Desktop SoftwareAssetsElectronic Business Project: Planning and Budgeting for a Sales ConferenceGroup Project: Evaluating Server Operating SystemsCase Study: 99 Cents Only Stores: IT Infrastructure on a BudgetLearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-up IT Infrastructure and PlatformsCase Study: Better Data Help Virgin Mobile Australia Win the Customer WarsSection 7.1: Organizing Data in a Traditional File EnvironmentFile Organization Terms and ConceptsProblems with the Traditional File EnvironmentSection 7.2: The Database Approach to Data ManagementDatabase Management SystemsTypes of DatabasesWindow on Organizations: A Database Helps P&G Manage ProductInformationSection 7.3: Creating a Database EnvironmentDesigning DatabasesDistributing DatabasesEnsuring Data QualitySection 7.4: Database TrendsMultidimensional Data AnalysisData Warehouses and Data MiningWindow on Technology: Large Data Warehouses: When Bigger IsBetterDatabases and the WebSection 7.5: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Database Exercise: Building a Relational Database fora Small BusinessDirt Bikes U.S.A.: Redesigning the Customer DatabaseElectronic Commerce Project: Searching Online DatabasesGroup Project: Creating Company-Wide Data StandardsCase Study: Database Woes Plague Homeland Security and Law EnforcementLearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-upTelecommunications, Networks, and the InternetCase Study: Okanagan-Skaha School District Does More with Less Using Networking and the InternetSection 8.1: Telecommunications and Networking in Today’s Business World The Business Telecommunications EnvironmentNetworking and Communications TrendsThe Business Value of Telecommunications and NetworkingSection 8.2: Contemporary Networking InfrastructureNetworks and Corporate InfrastructureKey Digital Networking TechnologiesPhysical Transmission MediaTypes of NetworksBroadband Network Services and TechnologiesSection 8.3: The InternetInternet Addressing, Architecture, and GovernanceInternet ServicesThe Internet and Business ValueThe World Wide webIntranets and ExtranetsNext-Generation Networks and Internet2Section 8.4: Technologies and Tools for Communication and E-BusinessE-Mail, Chat, Instant Messaging, and Electronic DiscussionsGroupware, Teamware, and Electronic ConferencingInternet TelephonyWindow on Organizations: Internet Telephones: Why Not?Virtual Private NetworksSection 8.5: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesWindow on Management: Monitoring Employees on Networks:Unethical or Good Business?Learning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Spreadsheet Exercise: Analyzing Web Site VisitorsDirt Bikes U.S.A.: Using Internet Tools to Increase Efficiency and ProductivityElectronic Commerce Project: Using Web Search Engines for Business ResearchGroup Project: Identifying Strategic Opportunities for Networking TechnologyCase Study: Can REI Climb Higher with Networking and the Internet?LearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-up The Wireless RevolutionCase Study: The Boston Public Library Goes WirelessSection 9.1: The Wireless Computing LandscapeThe Wireless RevolutionBusiness Value of Wireless NetworkingWireless Transmission Media and DevicesCellular Network Standards and GenerationsMobile Wireless Standards for Web AccessSection 9.2: Wireless Computer Networks and Internet AccessBluetoothWi-FiWiMax and EV-DOWindow on Management: Wi-Fi: Starbuck’s Solution to GoSection 9.3: M-Commerce and Mobile ComputingM-Commerce Services and ApplicationsAccessing Information from the Wireless WebDigital Payment Systems and M-CommerceM-Commerce ChallengesSection 9.4: Wireless Technology in the EnterpriseWireless Applications for Customer Relationship ManagementWireless Supply Chain Management and Radio Frequency Identification(RFID)Wireless in Health CareWireless Sensor Networks and Pervasive ComputingWindow on Organizations: Does RFID Threaten Privacy?Section 9.5: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Spreadsheet Exercise: Comparing Wireless ServicesDirt Bikes U.S.A.: Determining the Cost of RFID SystemsElectronic Business Project: Identifying Wi-Fi Hotspots for Nomadic ComputingGroup Project: Comparing Mobile Internet Access SystemsCase Study: UPS versus FedEx: Two Competitors, Two Wireless StrategiesLearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-up Security and ControlCase Study: Wesfarmers Outsources to a Managed Security ServiceSection 10.1: System Vulnerability and AbuseWhy Systems Are VulnerableMalicious Software: Viruses, Worms, Trojan Horses, and SpywareHackers and CybervandalismComputer Crime and CyberterrorismInternal Threats: EmployeesSoftware VulnerabilitySection 10.2: Business Value of Security and ControlWindow on Technology: The Rush to PatchLegal and Regulatory Requirements for Electronic Records ManagementElectronic Evidence and Computer ForensicsSection 10.3: Establishing a Management Framework for Security and Control Types of Information Systems ControlsRisk AssessmentSecurity PolicyEnsuring Business ContinuityThe Role of Auditing in the Control ProcessSection 10.4: Technologies and Tools for Security and ControlWindow on Management: Deutsche Bank Ties Business ContinuityPlanning to the BusinessAccess ControlFirewalls, Intrusion Detection Systems, and Antivirus SoftwareSecuring Wireless NetworksEncryption and Public Key InfrastructureEnsuring Software ReliabilitySection 10.5: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Spreadsheet Exercise: Performing a Security RiskAssessmentDirt Bikes USA: Developing a Disaster Recovery PlanElectronic Business Project: Evaluating Security Outsourcing ServicesGroup Project: Analyzing Security VulnerabilitiesCase Study: Royal Bank of Canada’s Software WoesLearningObjectives Web Link Video Management Wrap-upLearningObjectives Web Link VideoManagementWrap-up Enterprise Applications and Business Process IntegrationCase Study: PNC Bank on Enterprise ApplicationsSection 11.1: Enterprise SystemsWhat Are Enterprise Systems?How Enterprise Systems WorkBusiness Value of Enterprise SystemsSection 11.2: Supply Chain Management SystemsThe Supply ChainInformation and Supply Chain ManagementSupply Chain Management ApplicationsSupply Chain Management and the InternetBusiness Value of Supply Chain Management SystemsSection 11.3: Customer Relationship Management SystemsCustomer Relationship Management and Partner Relationship ManagementCustomer Relationship Management ApplicationsOperational and Analytical CRMBusiness Value of Customer Relationship Management SystemsSection 11.4: Enterprise Integration TrendsExtending Enterprise SoftwareWindow on Organizations: CRM Drives Sales at Mercedes and SaabService Platforms and Business Process ManagementSection 11.5: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesWindow on Management:Why Novartis Backed Off from EnterpriseSoftwareSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Database Exercise: Managing Customer ServiceRequestsDirt Bikes USA: Identifying Supply Chain Management SolutionsElectronic Business Project: Evaluating Supply Chain Management ServicesGroup Project: Analyzing Enterprise Process IntegrationCase Study: Can Information Systems Restore Profitability to Restoration Hardware?LearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-up Managing Knowledge in the Digital FirmCase Study: Cott Struggles to Manage Unstructured InformationSection 12.1: The Knowledge Management LandscapeImportant Dimensions of KnowledgeOrganizational Learning and Knowledge ManagementThe Knowledge Management Value ChainTypes of Knowledge Management SystemsSection 12.2: Enterprise-Wide Knowledge Management SystemsStructured Knowledge SystemsSemistructured Knowledge SystemsKnowledge Network SystemsWindow on Management: An Enterprise-Wide Knowledge ManagementSystem Pays Off for CuatrecasasSupporting Technologies: Portals, Collaboration Tools, and LearningManagement SystemsSection 12.3: Knowledge Work SystemsKnowledge Workers and Knowledge WorkRequirements of Knowledge Work SystemsWindow on Organizations: The U.S. Navy Creates the World’s LargestClassroomExamples of Knowledge Work SystemsSection 12.4: Intelligent TechniquesCapturing Knowledge: Expert SystemsOrganizational Intelligence: Case-Based ReasoningFuzzy Logic SystemsNeural NetworksGenetic AlgorithmsHybrid AI SystemsIntelligent AgentsSection 12.5: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Expert System Exercise: Building a Simple ExpertSystem for Retirement PlanningDirt Bikes USA: Identifying Opportunities for Knowledge ManagementElectronic Commerce Project: Using Intelligent Agents for Comparison ShoppingGroup Project: Rating Knowledge Network SystemsCase Study: Can Knowledge Management Systems Help PfizerLearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-up Enhancing Decision Making for the Digital FirmCase Study: Daimler’s Bremen Plant Optimizes Deliveries with a DSSSection 13.1: Decision Making and Decision-Support SystemsBusiness Intelligence and Decision SupportBusiness Value of Improved Decision MakingBusiness Decision Making and the Decision-Making ProcessTrends in Decision Support and Business IntelligenceSection 13.2: Systems for Decision SupportThe Difference between MIS and DSSTypes of Decision-Support SystemsWindow on Technology: Harrah’s Finds Diamonds in the Data MineComponents of DSSBusiness Value of DSSWeb-Based Customer Decision-Support SystemsWindow on Management: GIS Help the Elderly in SwedenSection 13.3: Group Decision-Support SystemsWhat Is a GDSS?Overview of a GDSS MeetingBusiness Value of GDSSSection 13.4: Executive Support in the EnterpriseThe Role of Executive Support Systems in the FirmBusiness Value of Executive Support SystemsExecutive Support Systems and the Digital FirmSection 13.5: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Spreadsheet Exercise: Performing Break-Even Analysisand Sensitivity AnalysisDirt Bikes USA: Analyzing the Impact of Component Price ChangesElectronic Commerce Project: Using a Web-Based DSS for Retirement PlanningGroup Project: Designing a University GDSSCase Study: Optimizing Operations at UPSLearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-up Redesigning the Organization with Information SystemsCase Study: Australia’s Victoria Country Fire Authority Responds with New SystemsSection 14.1: Systems as Planned Organizational ChangeLinking Information Systems to the Business PlanEstablishing Organizational Information RequirementsSystems Development and Organizational ChangeSection 14.2: Business Process Reengineering and Process ImprovementBusiness Process ReengineeringSteps in Effective ReengineeringProcess Improvement: Business Process Management, Total QualityManagement, and Six SigmaSection 14.3: Overview of Systems DevelopmentSystems AnalysisSystems DesignCompleting the Systems Development ProcessModeling and Designing Systems: Structured and Object-OrientedMethodologiesSection 14.4: Alternative Systems-Building ApproachesTraditional Systems Life CyclePrototypingEnd-User DevelopmentApplication Software Packages and OutsourcingWindow on Technology: New Systems Keep Elie Tahari a Top FashionInnovatorSection 14.5: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesWindow on Organizations: Wall Street Firms Grapple with Build VersusBuySolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Database Exercise: Designing a Customer System forAuto SalesDirt Bikes USA: Designing an Employee Training and Skills Tracking SystemElectronic Business Project: Redesigning Business Processes for Web ProcurementGroup Project: Preparing Web Site Design SpecificationsCase Study: Blue Rhino Slows Down to Get AheadLearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-upUnderstanding the Business Value of Systems and Managing Change Case Study: HSBC Malaysia: Master of Change ManagementSection 15.1: Understanding the Business Value of Information SystemsTraditional Capital Budgeting ModelsCase Example: Capital Budgeting for a New Supply Chain ManagementSystemStrategic ConsiderationsInformation Technology Investments and ProductivitySection 15.2: The Importance of Change Management in Information Systems Success and FailureInformation Systems Problem AreasWindow on Organizations: What’s Wrong with ?Change Management and the Concept of ImplementationCauses of Implementation Success and FailureWindow on Management: The Navy/Marine Corps Intranet Turns into aBattlegroundChange Management Challenges for Business Process Reengineering,Enterprise Applications, and Mergers and AcquisitionsSection 15.3: Managing ImplementationControlling Risk FactorsDesigning for the OrganizationSection 15.4: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesSolution GuidelinesLearning SupplementsMake IT Your BusinessSummaryKey TermsReview QuestionsDiscussion QuestionsApplication Software Exercise: Spreadsheet Exercise: Capital Budgeting for a NewCAD SystemDirt Bikes USA: Analyzing the Return on a New System InvestmentElectronic Business Project: Buying and Financing a HomeGroup Project: Identifying Implementation ProblemsCaseStudy: Can the IRS Modernize Its Systems?LearningObjectives Web Link Video Management Wrap-upPrentice Hall © 2006 | Azimuth Interactive Inc. © 2006LearningObjectives Web Link VideoManagementWrap-up Managing International Information SystemsCase Study: Dräger Safety Creates a Global Supply ChainSection 16.1: The Growth of International Information SystemsDeveloping an International Information Systems ArchitectureThe Global Environment: Business Drivers and ChallengesState of the ArtSection 16.2: Organizing International Information SystemsGlobal Strategies and Business OrganizationGlobal Systems to Fit the StrategyReorganizing the BusinessSection 16.3: Managing Global SystemsA Typical Scenario: Disorganization on a Global ScaleGlobal Systems StrategySection 16.4: Technology Issues and Opportunities for Global Value Chains Technology Challenges of Global SystemsManaging Global Software DevelopmentWindow on Management: Getting Systems to Work in China—SlowlySection 16.5: Management Opportunities, Challenges, and SolutionsOpportunitiesManagement ChallengesWindow on Organizatoins: Offshore Outsourcing: Good or Bad?Solution GuidelinesLearning Supplements。

Translation for Reference什么是管理信息系统什么是管理信息系统？学会如何应用信息技术解决问题的第一步是给管理信息系统这个术语进行广泛地描述。

也许，你在使用计算机和各种软件上有一些经验，然而计算机仅仅是管理信息系统的一部分。

管理信息系统（MIS）或计算机信息系统（CIS）包含了与计算机有关的五个方面：硬件、软件、人、程序和数据群。

信息技术（IT）这一概念代表是不同种类的硬件和在信息系统里所使用的软件，包括计算机和网络设备。

MIS的目标就是通过提供有质量的信息使管理者做出更好的决定。

用于计算机信息处理的有形设备称为硬件。

控制硬件的一套指令就是我们所说的软件。

在计算机发展的初期，与MIS直接有关的人通常是指程序员，设计分析员和几个外部使用者。

今天，几乎公司中的每一个人都被卷入计算机系统。

程序就是帮助人们使用的指令。

它们包括不同的东西如：使用手册，文件以及确保定期备份的程序。

数据库是指能够容易收回和被计算机加工处理的相关的数据集合。

正如你在这本书中所有的例子中所看到的那样，所有这些组成部分对于创造有效的管理信息系统都是重要的。

什么是信息呢？回答这个问题的一个方法是检查一下信息技术在三个部同层次上的使用：（1）数据管理，（2）信息管理，（3）知识管理。

数据包括描述某些目标和事件的事实因素（观点或评价）。

数据可以被看未被加工的数字或文字。

数据管理集中在数据集合和提供基本报告上。

信息代表了被加工、组织和整合并提供更深洞察的数据。

信息系统设计用于管理者分析数据和做出决定。

从一个决策者的角度看，其面临的挑战是在预先可能不知什么你所需要信息，所以去决定你需要搜集什么样的信息是难的。

知识代表一种更高层次的理解，包括了规则、模式和决定。

以知识为基础的系统的建立是自动进行数据分析，确定模式和提供相关建议。

人类也具有一定的智慧，他们将知识、经验和分析技巧加以应用以创造出新的知识和适应改变的形势。

在没有计算机的日子里人们已经获得了智慧的本质。

常用大学课程中英文对照大学课程中英文对照大汇集英文字母开头的课程ALGOL语言ALGOL LanguageBASIC & FORTRAN 语言BASIC Language & FORTRAN LanguageBASIC 语言BASIC LanguageBASIC 语言及应用BASIC Language & ApplicationC 语言C LanguageC++程序设计C++ Program DesigningCAD 概论Introduction to CADCAD/CAM CAD/CAMCET-4 College English Test (Band 4)CET-6 College English Test (Band 6)COBOL语言COBOL LanguageCOBOL语言程序设计COBOL Language Program DesigningC与UNIX环境 C Language & Unix EnvironmentC语言科学计算方法Scientific Computation Method in CC语言与生物医学信息处理 C Language & Biomedical Information Processing dBASE Ⅲ课程设计Course Exercise in dBASE ⅢFORTRAN 77 语言FORTRAN 77 LanguageFORTRAN语言FORTRAN LanguageFoxBase程序设计FoxBase ProgrammingHopf代数Hopf AlgebraHopf代数与代数群量子群Hopf Algebra , Algebraic Group and Qua ntum GroupIBM-PC/XT Fundamentals of Microcomputer IBM-PC/XTIBM-PC微机原理Fundamentals of Microcomputer IBM-PCIBM汇编及高级语言的接口IBM Assembly & its Interfaces with Advanced Programming Languages Internet与Intranet技术Internet and Intranet TechnologyLSI设计基础Basic of LSI DesigningOS/2操作系统OS/2 Operation SystemPASCAL大型作业PASCAL Wide Range WorkingPASCAL课程设计Course Exercise in PASCALPASCAL语言PASCAL LanguagePC机原理Principle of PCUnix编程环境Unix Programming EnvironmentUnix操作系统分析Analysis of Unix SystemVLSI的EDA技术EDA Techniques for VLSIVLSI技术与检测方法VLSI Techniques & Its ExaminationVLSI设计基础Basis of VLSI DesignWindows系统Windows Operation SystemX光分析X-ray AnalysisX射线金属学X-Ray & MetallographyX射线与电镜X-ray & Electric MicroscopeZ-80汇编语言程序设计Z-80 Pragramming in Assembly LanguagesB开头的课程板壳非线性力学Nonlinear Mechanics of Plate and Shell板壳理论Plate Theory , Theory of Plate and Shell板壳力学Plate Mechanics办公自动化Office Automatization办公自动化系统毕业设计Office Automatization Thesis办公自动化系统设计Office Automatization Design半波实验Semiwave Experiment半导体变流技术Semiconductor Converting Technology半导体材料Semiconductor Materials半导体测量Measurement of Semiconductors半导体瓷敏元件Semiconductor Porcelain-Sensitive Elements半导体光电子学Semiconductor Optic Electronics半导体化学Semiconductor Chemistry半导体激光器Semiconductor Laser Unit半导体集成电路Semiconductor Integrated Circuitry半导体理论Semi-conductive Theory半导体器件Semiconductor Devices半导体器件工艺原理Technological Fundamentals of Semiconductor Device半导体器件课程设计Course Design of Semiconductor Devices半导体物理Semiconductor Physics半导体专业Semi-conduction Specialty半导体专业实验Specialty Experiment of Semiconductor半群理论Semi-group Theory保健食品监督评价Evaluation and Supervision on Health Food s保险学Insurance保险学Insurance报告文学专题Special Subject On Reportage报刊编辑学Newspaper & Magazine Editing报刊选读Selected Readings of Newspaper & Magazine报纸编辑学Newspaper Editing泵与风机Pumps and Fans泵与水机Pumps & Water Turbines毕业论文Graduation Thesis毕业设计Graduation Thesis毕业实习Graduation Practice编译方法Compilation Method编译方法Methods of Compiling编译技术Technique of Compiling编译原理Fundamentals of Compiling, Principles of Compiler编译原理课程设计Course Design of Compiling变电站的微机检测Computer Testing in Transformer Substation变电站的微机检测与控制Computer Testing & Control in Transformer Substation变分法与张量Calculus of V ariations & Tensor变分学Calculus of V ariations变流技术Semiconductor Converting Technology变质量系统热力学与新型回转压V ariable Quality System Thermal Mechanics & NeoRo 表面活性剂化学及应用Chemistry and Application of Surfactant表面活性物质Surface Reactive Materials并行处理Parallel Processing并行处理与并行程序设计Parallel Processing and Parallel Programming并行算法Parallel Algorithmic波谱学Spectroscopy, Wave Spectrum波谱学实验Spectroscopic Experiment薄膜光学Film Optics薄膜物理Thin Film Physics不育症的病因学Etiology of InfertilityC开头的课程材料的力学性能测试Measurement of Material Mechanical Performance材料化学Material Chemistry材料力学Mechanics of Materials财税法规与税务会计Laws and Regulations of Finance and Taxes财务案例分析Case Analysis of Finance Management财务案例分析Case Analysis of Financial Management财务报告分析Analysis of Financial Statement财务成本管理Financial Cost Management财务管理Financial Management, Financial Cost Management财务管理与分析Financial Management and Analysis财务会计Financial Accountancy财政学Public Finance财政与金融Finance & Banking财政与税收Finance & Revenue财政与税收理论Theories on Public Finance and Tax Revenue财政与信贷Finance & Credit操作系统Disk Operating System (DOS)操作系统课程设计Course Design in Disk Operating System操作系统与编译原理Disk Operating System & Fundamentals of Compiling操作系统原理Fundamentals of Disk Operating System, Principles of Operating System 测量技术基础Foundation of Measurement Technology测量原理与仪器设计Measurement Fundamentals & Meter Design测试技术Testing Technology测试与信号变换处理Testing & Signal Transformation Processing策波测量技术Technique of Whip Wave Measurement策略管理Strategic Management产品学Production产业经济学Industrial Economy产业组织Industrial Organization产业组织学Industrial Organization Technology常微分方程Ordinary Differential Equations场论Field Theory超导磁体及应用Superconductive Magnet & Application超导及应用Superconductive & Application超高真空科学与技术Science and Technology of Ultrahigh V acuum 60超精密加工和微细加工Super-Precision & Minuteness Processing超精微细加工Super-Precision & Minuteness Processing超声及应用Supersonics Application成本会计Cost Accounting成像原理与技术Principles & Technique of Imaging成组技术Grouping Technique城市规划原理Fundamentals of City Planning城市社会学Urban Sociology程控数字交换Program Controlling of Digital Exchange程序设计Program Designing程序设计方法学Methodology of Programming, Methods of Programming程序设计及算法语言Program Designing & Algorithmic Language程序设计语言Programming Language齿轮啮合原理Principles of Gear Connection冲击测量及误差Punching Measurement & Error冲压工艺Sheet Metal Forming Technology抽象代数Abstract Algebra初等数学Primary Mathematics传坳概论Introduction to Pass Col传动概论Introduction to Transmission传感技术Sensor Technique传感技术及应用Sensor Technique & Application传感器及应用Sensors & Application传感器与检测技术Sensors & Testing Technology传感器原理Fundamentals of Sensors传感器原理及应用Fundamentals of Sensors & Application传热学Heat Transfer船舶操纵Ship Controlling船舶电力系统Ship Electrical Power System船舶电力系统课程设计Course Exercise in Ship Electrical Power System 船舶电气传动自动化Ship Electrified Transmission Automation船舶电站Ship Power Station船舶动力装置Ship Power Equipment船舶概论Introduction to Ships船舶焊接与材料Welding & Materials on Ship船舶机械控制技术Mechanic Control Technology for Ships船舶机械拖动Ship Mechanic Towage船舶建筑美学Artistic Designing of Ships船舶结构Ship Structure船舶结构力学Structural Mechanics for Ships船舶结构与制图Ship Structure & Graphing船舶静力学Ship Statics船舶强度与结构设计Designing Ship Intensity & Structure船舶设计原理Principles of Ship Designing船舶推进Ship Propelling船舶摇摆Ship Swaying船舶摇摆与操纵Ship Swaying & Manipulating船舶振动Ship V ibration船舶阻力Ship Resistance船体建造工艺Ship-Building Technology船体结构Ship Structure船体结构图Ship Structure Graphing船体结构与制图Ship Structure & Graphing船体振动学Ship V ibration船体制图Ship Graphing船用电器设备Marine Electrical Equipment创造心理学Creativity Psychology词汇学Lexicology磁测量技术Magnetic Measurement Technology磁传感器Magnetic Sensor磁存储设备设计原理Fundamental Design of Magnetic Memory Equipment 磁记录Magnetographic磁记录技术Magnetographic Technology磁记录物理Magnetographic Physics磁路设计与场计算Magnetic Path Designing & Magnetic Field Calculati磁盘控制器Magnetic Disk Controler磁性材料Magnetic Materials磁性测量Magnetic Measurement磁性物理Magnetophysics磁原理及应用Principles of Catalyzation & Application催化原理Principles of CatalysisD开头的课程大电流测量Super-Current Measurement大电源测量Super-Power Measurement大机组协调控制Coordination & Control of Generator Networks大跨度房屋结构Large-Span House structure大型锅炉概况Introduction to Large-V olume Boilers大型火电机组控制Control of Large Thermal Power Generator Networks大型数据库原理与高级开发技术Principles of Large-Scale Data-Bas e and Advanced Development Technology 大学德语College German大学俄语College Russian大学法语College French大学日语College Japanese大学生心理学Psychology Introduction大学物理College Physics大学物理实验Experiment of College Physics大学英语College English大学语文College Chinese大众传播学Mass Media代数几何Algebraic Geometry代数几何Algebraic Geometry代数曲面Algebraic Surfaces代数图论Algebraic Graph Theory代数拓扑Algebraic Topology代数学Algebra代用燃料Substitute Fuel代用运放电路Simulated Transmittal Circuit单片机与接口技术Mono-Chip Computers & Interface Technique单片机原理Fundamentals of Mono-Chip Computers单片机原理及应用Fundamentals of Mono-Chip Computers & Applications弹塑性力学Elastic-Plastic Mechanics弹性波Elastic Waves弹性力学Elastic Mechanics, Theory of Elastic Mechanics弹性元件的理论及设计Theory and Design of Elastic Element蛋白质结构基础Principle of Protein Structure蛋白质生物化学技术Biochemical Technology of Protein当代国际关系Contemporary International Relationship当代国外社会思维评价Evaluation of Contemporary Foreign Social Thought当代文学Contemporary Literature当代文学专题Topics on Contemporary Literature当代西方哲学Contemporary Western Philosophy当代戏剧与电影Contemporary Drama & Films当代资本主义经济Contemporary Capitalist Economy党史History of the Party导波光学Wave Guiding Optics德育Moral Education等离子体工程Plasma Engineering低频电子线路Low Frequency Electric Circuit低温测试技术Cryo Testing Technique低温传热学Cryo Conduction低温固体物理Cryo Solid Physics低温技术原理与装置Fundamentals of Cryo Technology & Equipment低温技术中的微机原理Priciples of Microcomputer in Cryo Technology低温绝热Cryo Heat Insulation低温气体制冷机Cryo Gas Refrigerator低温热管Cryo Heat Tube低温设备Cryo Equipment低温生物冻干技术Biological Cryo Freezing Drying Technology低温生物学原理与应用Principle & Application of Cryobiology低温实验技术Cryo Experimentation Technology低温物理导论Cryo Physic Concepts低温物理概论Cryo Physic Concepts低温仪表及测试Cryo Meters & Measurement低温原理Cryo Fundamentals低温原理与设备Cryo Fundamentals & Equipment低温制冷机Cryo Refrigerator低温中的微机应用Application of Microcomputer in Cryo Technology低温装置Cryo Equipment低噪声电子电路Low-Noise Electric Circuit低噪声电子设计Low-Noise Electronic Designing低噪声放大与弱检Low-Noise Increasing & Decreasing低噪声与弱信号检测Detection of Low Noise & Weak Signals地基基础课程设计Course Design of Groundsill Basis地理Geography第二次世界大战史History of World War II典型计算机分析Classical Computer Analysis电测量技术Electric Measurement Technology电厂计算机控制系统Computer Control System in Power Plants电磁测量实验技术Electromagnetic Measurement Experiment & Technology 电磁场计算机Electromagnetic Field Computers电磁场理论Theory of Electromagnetic Fields电磁场数值计算Numerical Calculation of Electromagnetic Fields电磁场与电磁波Electromagnetic Fields & Magnetic Waves电磁场与微波技术Electromagnetic Fields & Micro-Wave Technology电磁场中的数值方法Numerical Methods in Electromagnetic Fields电磁场中的数值计算Numerical Calculation in Electromagnetic Fields电磁学Electromagnetics电动力学Electrodynamics电镀Plating电分析化学Electro-Analytical Chemistry电工材料Electrical Materials电工测量技术基础Measurement Technology of Electrical Engineering电工测试技术基础Testing Technology of Electrical Engineering电工产品学Electrotechnical Products电工电子技术基础Electrical Technology & Electrical Engineering电工电子学Electronics in Electrical Engineering电工基础Fundamental Theory of Electrical Engineering电工基础理论Fundamental Theory of Electrical Engineering电工基础实验Basic Experiment in Electrical Engineering电工技术Electrotechnics电工技术基础Fundamentals of Electrotechnics电工实习Electrical Engineering Practice电工实验Experiment of Electrical Engineering电工实验技术基础Experiment Technology of Electrical Engineering电工学Electrical Engineering电工与电机控制Electrical Engineering & Motor Control电弧电接触Electrical Arc Contact电弧焊及电渣焊Electric Arc Welding & Electroslag Welding电化学测试技术Electrochemical Measurement Technology电化学工程Electrochemical Engineering电化学工艺学Electrochemical Technology电机Motor电机测试技术Motor Measuring Technology电机电磁场的分析与计算Analysis & Calculation of Electrical Motor &电机电磁场的数值计算Calculation of Electrical Motor & Electromagnetic Fields 电机电磁场理论Theory of Electrical Moto & Electromagnetic Fields电机电器与供电Motor Elements and Power Supply电机矩阵分析法Analysis of Electrical Motor Matrix电机课程设计Course Exercise in Electric Engine电机绕组理论Theory of Motor Winding电机绕组理论及应用Theory & Application of Motor Winding电机设计Design of Electrical Motor电机瞬变过程Electrical Motor Change Processes电机统一理论Theory of Electrical Motor Integration电机学Electrical Motor电机学及控制电机Electrical Machinery Control & Technology电机与拖动Electrical Machinery & Towage电机原理Principle of Electric Engine电机原理与拖动Principles of Electrical Machinery & Towage电机专题Lectures on Electric Engine电接触与电弧Electrical Contact & Electrical Arc电介质物理Dielectric Physics电镜Electronic Speculum电力电子电路Power Electronic Circuit电力电子电器Power Electronic Equipment电力电子器件Power Electronic Devices电力电子学Power Electronics电力工程Electrical Power Engineering电力企业管理Management of Electrical Enterprise电力生产技术Technology of Electrical Power Generation电力生产优化管理Optimal Management of Electrical Power Generation电力拖动Electric Traction电力拖动基础Fundamentals for Electrical Towage电力拖动控制系统Electrical Towage Control Systems电力拖动与电气控制Electrical Towage & Electrical Control电力系统Power Systems电力系统电源最优化规划Optimal Planning of Power Source in a Power System 电力系统短路Power System Shortcuts电力系统分析Power System Analysis电力系统规划Power System Planning电力系统过电压Hyper-V oltage of Power Systems电力系统继电保护原理Power System Relay Protection电力系统经济分析Economical Analysis of Power Systems电力系统经济运行Economical Operation of Power Systems电力系统可靠性Power System Reliability电力系统可靠性分析Power System Reliability Analysis电力系统课程设计Course Design of Power Systems电力系统无功补偿及应用Non-Work Compensation in Power Systems & Applicati 电力系统谐波Harmonious Waves in Power Systems电力系统优化设计Optimal Designing of Power Systems电力系统远动Operation of Electric Systems电力系统远动技术Operation Technique of Electric Systems电力系统运行Operation of Electric Systems电力系统自动化Automation of Electric Systems电力系统自动装置Power System Automation Equipment电力系统最优规划Optimal Planning in Power System电力装置课程设计Course Design of Power Equipment电力装置与系统Power Equipment & System电路测量与实验Circuit Measurement & Experiment电路测试技术Circuit Measurement Technology电路测试技术基础Fundamentals of Circuit Measurement Technology电路测试技术及实验Circuit Measurement Technology & Experiments电路分析基础Basis of Circuit Analysis电路分析基础实验Basic Experiment on Circuit Analysis电路分析实验Experiment on Circuit Analysis电路和电子技术Circuit and Electronic Technique电路基本理论Basis Theory of Circuitry电路及电子线路CAD Circuitry CAD电路理论Theory of Circuit电路理论基础Fundamental Theory of Circuit电路理论实验Experiments in Theory of Circuct电路设计与测试技术Circuit Designing & Measurement Technology电气测量技术Electrical Measurement Technology电气传动Electrified Transmission电气控制技术Electrical Control Technology电器设计Electrical Appliances Designing电器学Electrical Appliances电器与控制Electrical Appliances & Control电生理技术基础Basics of Electricphysiological Technology电视传感器图象显示Television Sensor Graphic Display电视接收技术Television Reception Technology电视节目Television Programs电视节目制作Television Program Designing电视新技术New Television Technology电视新闻Television News电视原理Principles of Television电网调度自动化Automation of Electric Network Management电学实验Electrical Experiment电影艺术Art of Film Making电站微机检测控制Computerized Measurement & Control of Power Statio电子材料与元件测试技术Measuring Technology of Electronic Material and Element电子材料元件Electronic Material and Element电子材料元件测量Electronic Material and Element Measurement电子测量与实验技术Technology of Electronic Measurement & Experiment电子测试Electronic Testing电子测试技术Electronic Testing Technology电子测试技术与实验Electronic Testing Technology & Experiment电子测试实验Electronic Testing Experiment电子测试与实验技术Electronic Testing Technology & Experiment电子机械运动控制技术Technology of Electronic Mechanic Movement Control电子技术Technology of Electronics电子技术腐蚀测试中的应用Application of Electronic Technology in Erosion Measurement 电子技术基础Basic Electronic Technology电子技术基础与实验Basic Electronic Technology & Experiment电子技术课程设计Course Exercise in Electronic Technology电子技术实验Experiment in Electronic Technology电子技术综合性设计实验Experiment in Electronic Technology电子理论实验Experiment in Electronic Theory电子商务Electronic Commerce电子系统的ASIC技术ASIC Design Technologies电子显微分析Electronic Micro-Analysis电子显微镜Electronic Microscope电子线路Electronic Circuit电子线路的计算机辅助设计Computer Associate Design of Electronic Circuit电子线路课程设计Course Design of Electronic Circuit电子线路设计与测试技术Electronic Circuit Design & Measurement Technology电子线路设计与测试实验Electronic Circuit Design & Measurement Experiment电子线路实验Experiment in Electronic Circuit电子学Electronics电子学课程设计Course Design of Electronics电子照相技术Electronic Photographing Technology雕塑艺术欣赏Appreciation of Sculptural Art调节原理Principles of Regulation调节装置Regulation Equipment动力机械CAD Dynamical Machine CAD动力学Dynamics动态规划Dynamic Programming动态无损检测Dynamic Non-Destruction Measurement动态信号Dynamic Signal动态信号分析与仪器Dynamic Signal Analysis & Apparatus动物病害学基础Basis of Animal Disease动物免疫学Animal Immunology动物生理与分子生物学Animal Physiology and Molecular Biochemistry动物学Zoology动物遗传工程Animal Genetic Engineering毒理遗传学Toxicological Genetics断裂力学Fracture Mechanics断裂疲劳力学Fatigue Fracture Mechanics锻压测试技术Forging Testing Technique锻压工艺Forging Technology锻压机械液压传动Hydraulic Transmission in Forging Machinery锻压加热设备Forging Heating Equipment锻压设备专题Lectures on Forging Press Equipments锻压系统动力学Dynamics of Forging System锻造工艺Forging Technology锻造加热设备Forging Heat Equipment对外贸易保险International Trade Insurance对外贸易地理International Marketing Geography对外贸易概论Introduction to International Trade对外贸易运输International Trade Transportation多层网络方法Multi-Layer Network Technology多复变函数Analytic Functions of Several Complex V ariables多媒体计算机技术Multimedia Computer Technology多媒体技术Multimedia Technology多目标优化方法Multipurpose Optimal Method多项距阵Multi-Nominal Matrix多元统计分析Multivariable StatisticsF开头的课程发电厂Power Plant发电厂电气部分Electric Elements of Power Plants发电厂电气部分与动力部分Electric Elements & Dynamics of Power Plants发电厂电气部分与热力设备Electric Elements & Thermodynamics Equipment of Power Plants发电厂计算机控制Computer Control in Power Plant发酵工程Zymolysis Engineering发育生物学原理与实验技术Principle and Experimental Technology of Development发展经济学Evolutive Economics法理学Nomology法律基础Fundamentals of Law法学概论An Introduction to Science of Law法学基础Fundamentals of Science of Law翻译Translation翻译理论与技巧Theory & Skills of Translation反不正当经济法Anti-malfeasance Economic Law泛读Extensive Reading泛函分析Functional Analysis泛函分析Functional Analysis房屋建筑学Architectural Design & Construction房屋建筑学课程设计Course Design of House Architecture仿真与辅助设计Simulation & Computer Aided Design放射生物学Radiation Biology放射学Radiology非电量测量Non-Electricity Measurement非金属材料Non-Metal Materials非线性采样系统Non-Linear Sampling System非线性方程组的数值解法Numerical Methods for No-linear System s of Equations非线性光学Nonlinear Optics非线性规划Non-Linear Programming非线性控制理论Non-Linear Control Theory非线性双曲型守恒律解的存在性The Existence of Solutions for Non -linear Hyperbolic Conservation Laws 非线性物理导论Introduction to Nonlinear Physics非线性振荡Non-Linear Oscillation非线性振动Nonlinear V ibration废水处理工程Technology of Wastewater Treatment废水处理与回用Sewage Disposal and Re-use沸腾燃烧Boiling Combustion分布式计算机系统Distributed Computer System / Distributed System分布式系统与分布式处理Distributed Systems and Distributed Processing分离科学Separation Science分析化学Analytical Chemistry分析化学实验Analytical Chemistry Experiment分析力学Analytic Mechanics分析生物化学Analytical Biochemistry分析生物化学Analytical Biochemistry分子病毒学Molecular Virology分子进化工程Engineering of Molecular Evolution分子生物学Molecular Biology分子生物学技术Protocols in Molecular Biology分子遗传学Molecular Genetics风机调节Fan Regulation风机调节.使用.运转Regulation, Application & Operation of Fans风机三元流动理论与设计Tri-V ariant Movement Theory & Design of Fans风能利用Wind Power Utilization风险投资分析Analysis of Risk Investment服务业营销Service Industry Marketing辅助机械Aided Machine腐蚀电化学实验Experiment in Erosive Electrochemistry复变函数Complex V ariables Functions复变函数与积分变换Functions of Complex V ariables & Integral Transformation 复合材料结构力学Structural Mechanics of Composite Material复合材料力学Compound Material Mechanics傅里叶光学Fourier OpticsG开头的课程概率论Probability Theory概率论与数理统计Probability Theory & Mathematical Statistics概率论与随机过程Probability Theory & Stochastic Process概率与统计Probability & Statistics钢笔画Pen Drawing钢的热处理Heat-Treatment of Steel钢结构Steel Structure钢筋混凝土Reinforced Concrete钢筋混凝土及砖石结构Reinforced Concrete & Brick Structure钢砼结构Reinforced Concrete Structure钢砼结构与砌体结构Reinforces Structure and Monsary Structure钢砼课程设计Reinforced Concrete Course Design钢砼设计Experiment of Reinforced Concrete Structure高层建筑基础Tall Building Foundation高层建筑基础设计Designing bases of High Rising Buildings高层建筑结构设计Designing Structures of High Rising Buildings高等材料力学Advanced Material Mechanics高等代数Advanced Algebra高等发光分析Advanced Luminescence Analysis高等分析化学Advanced Analytical Chemistry高等工程力学Advanced Engineering Mechanics高等光学Advanced Optics高等环境微生物Advanced Environmental Microorganism高等教育管理Higher Education Management高等教育史History of Higher Education高等教育学Higher Education高等量子力学Advanced Quantum Mechanics高等生物化学Advanced Biochemistry高等数理方法Advanced Mathematical Method高等数学Advanced Mathematics高等数值分析Advanced Numeric Analysis高等土力学Advanced Soil Mechanics高等无机化学Advanced Inorganic Chemistry高等有机化学Advanced Organic Chemistry高电压测试技术High-V oltage Test Technology高电压技术High-V oltage Technology高电压技术与设备High-V oltage Technology and Device高电压绝缘High-V oltage Insulation高电压实验High-V oltage Experiment高分子材料High Polymer Material高分子材料及加工High Polymer Material & Porcessing高分子化学High Polymer Chemistry高分子化学实验High Polymer Chemistry Experiment高分子化学与物理Polymeric Chemistry and Physics高分子物理High Polymer Physics高分子物理实验High Polymer Physics Experiment高级程序设计语言的设计与实现Advanced Programming Language's Design & Implementation 高级管理信息系统Advanced Management Information Systems高级计算机体系结构Advanced Computer Architecture高级计算机网络Advanced Computer Networks高级计算机网络与集成技术Advanced Computer Networks and Integration Technology高级经济计量Advanced Economic Metrology高级软件工程Advanced Software Engineering高级生化技术Advanced Biochemical Technique高级生物化学Advanced Biochemistry高级食品化学Advanced Food Chemistry高级视听Advanced V ideos高级数据库Advanced Database高级数理逻辑Advanced Numerical Logic高级水生生物学Advanced Aquatic Biology高级英语听说Advanced English Listening & Speaking高级植物生理生化Advanced Plant Physiology and Biochemistry高能密束焊High Energy-Dense Beam Welding高频电路High-Frequency Circuit高频电子技术High-Frequency Electronic Technology高频电子线路High-Frequency Electronic Circuit高维代数簇Algebraic V arieties of Higher Dimension高压测量技术High-V oltage Measurement Technology高压测试技术High-V oltage Testing Technology高压电场的数值计算Numerical Calculation in High-V oltage Electronic Field高压电工程High-V oltage Engineering高压电技术High-V oltage Technology高压电器High-V oltage Electrical Appliances高压绝缘High-V oltage Insulation高压实验High-V oltage Experimentation高压实验设备测量High-V oltage Experimentation Equipment Measurement高压试验技术High-V oltage Experimentation Technology工厂电气设备Electric Equipment of Plants工厂供电Factory Electricity Supply工程材料的力学性能测试Mechanic Testing of Engineering Materials 工程材料及热处理Engineering Material and Heat Treatment工程材料学Engineering Materials工程测量Engineering Surveying工程测量实习Engineering Measuring Practice工程测试技术Engineering Testing Technique工程测试实验Experiment on Engineering Testing工程测试信息Information of Engineering Testing工程测试与信号处理Engineering Testing & Signal Processing工程地质Engineering Geology工程动力学Engineering Dynamics工程概论Introduction to Engineering工程概预算Project Budget工程经济学Engineering Economics工程静力学Engineering Statics工程力学Engineering Mechanics工程热力学Engineering Thermodynamics工程数学Engineering Mathematics工程项目概预算Engineering Project Estimate & Budget工程项目评估Engineering Project Evaluation工程优化方法Engineering Optimization Method工程运动学Engineering Kinematics工程造价管理Engineering Cost Management工程制图Graphing of Engineering工业产品学Industrial Products工业电子学Industry Electronics工业分析Industrial Analysis工业锅炉Industrial Boiler工业会计学Industrial Accounting工业机器人Industrial Robot工业技术基础Basic Industrial Technology工业技术经济Industrial Technology Economics工业建筑设计原理Principles of Industrial Building Design工业经济理论Industrial Economic Theory工业经济学Industrial Economics工业美术设计Art Designing in Industry工业企业财务管理Industrial Enterprise Financial Management工业企业财务会计Accounting in Industrial Enterprises工业企业管理Industrial Enterprise Management工业企业经营管理Industrial Enterprise Administrative Management 工业社会学Industrial Sociology工业心理学Industrial Psychology工业窑炉Industrial Stoves工艺过程自动化Technics Process Automation工艺设计Technics Design工艺实习Technics Practice工艺原理与研究方法Principles & Research of Technics公差Common Difference公差测试实验Common Difference Testing Experiment公差技术测量Technical Measurement with Common Difference公差与配合Common Difference & Cooperation公共关系Public Relationship公共关系学Public Relations公司法Corporation Law公司组织与管理Organization and Management公司组织与管理Organization and Management of Corporate公文写作Document Writing功能材料原理与技术Principle and Technology of Functional Materials 功能高分子Functional Polymer功能性食品Function Foods古代汉语Ancient Chinese古典文学作品选读Selected Readings in Classical Literature骨科医学Osteopathic Medicine固体磁性理论Theory of Magnetism in Solid固体激光Solid State Laser固体激光器件Solid Laser Elements固体激光与电源Solid State Laser & Power Unit固体理论Solid State Theory固体物理Solid-State Physics故障诊断与容错技术Malfunction Diagnoses & Tolerance Technology 关税Tariff管理概论Introduction to Management管理沟通Management Communication, Management Negotiation管理会计Managerial Accounting管理经济学Management Economics管理科学专题Management Science Special Subject管理数学Management Mathematics管理系统FOXBASE Management System of FOXBASE管理系统模拟Management System Simulation管理心理学Management Psychology管理信息系统Management Information System管理学Management Theory, Principles of Management管理学Principles of Management光波导理论Light Wave Guide Theory光电技术Photoelectric Technology光电检测与信号处理Optoelectronic Detection and Processing光电课程设计Photoelectric Course Exercise光电摄像技术Photoelectric Photographing Technique光电探测及信号处理Photoelectric Inspect & Signal Processing光电系统课程设计Photoelectric System Course Design光电信号处理Photoelectric Signal Processing光电信号与系统分析Photoelectric Signal & Systematic Analysis光电信息计算机处理Computer Processing in Photoelectric Information光电子技术Photoelectronic Technique光电子学与光电信息技术Optoelectronics and Optoelectronic Information Technology 光辐射探测技术Ray Radiation Detection Technology光接入网技术Technology of Light Access Network光谱Spectrum光谱分析Spectral Analysis光谱学Spectroscopy光纤传感Fibre Optical Sensors光纤传感器Fibre Optical Sensors光纤传感器基础Fundamentals of Fibre Optical Sensors光纤传感器及应用Fibre Optical Sensors & Applications光纤光学Fiber Optics光纤光学课程设计Course Design of Fibre Optical光纤技术实验Experiments in Fibre Optical Technology光纤实验Experiments in Fibre Optical光纤通信基础Basis of Fibre Optical Communication光纤通信技术Fibre Optical Communication Technology光纤通信网络Networks of Fiber Communications光纤通信系统Fibre Optical Communication System, System of Fiber Communications 光纤原理与技术Fibre Optical Operation & Technology光学Optics光学测量Optical Measurement光学分析法Optical Analysis Method光学工艺实习Optical Technology Practice光学计量仪器设计Optical Instrument Gauge Designing光学检测Optical Detection光学设计Optical Design光学信息导论Introduction of Optical Information光学仪器设计Optical Instrument Designing光学仪器与计量仪器设计Optical Instrument & Gauge Instrument Designing光学仪器装配与校正Optical Instrument Installation & Adjustment光学与统计物理Optics and Statistical Physics光学与原子物理Optics & Atomic Physics光子学器件原理与技术Principle and Technology of Photonics Devices光子学专题Special Topics on Photonics广播编辑学Broadcast Editing广播节目制作Broadcast Programming广播新闻Broadcast Journalism广播新闻采写Broadcast Journalism Collection & Composition广告管理Advertising Management广告学Advertisement锅炉课程设计Boiler Combustion Course Designing锅炉燃烧理论Theory of Boiler Combustion。

外文资料：Information management systemWiliam K.Thomson U.S.AAbstract:An information storage, searching and retrieval system for large (gigabytes) domains of archived textual dam. The system includes multiple query generation processes, a search process, and a presentation of search results that is sorted by category or type and that may be customized based on the professional discipline(or analogous personal characteristic of the user), thereby reducing the amount of time and cost required to retrieve relevant results.Keyword:Information management Retrieval system Object-Oriented1.INTRUDUCTIONThis invention relates to an information storage, searching and retrieval system that incorporates a novel organization for presentation of search results from large (gigabytes) domains of archived textual data.2.BACKGROUDN OF THE INVENTIONOn-line information retrieval systems are utilized for searching and retrieving many kinds of information. Most systems used today work in essentially the same manner; that is, users log on (through a computer terminal or personal microcomputer, and typically from a remote location), select a source of information (i.e., a particular database) which is usually something less than the complete domain, formulate a query, launch the search, and then review the search results displayed on the terminal or microcomputer, typically with documents (or summaries of documents) displayed in reverse chronological order. This process must be repeated each time another source (database) or group of sources is selected (which is frequently necessary in order to insure all relevant documents have been found).Additionally, this process places on the user the burden of organizing and assimilating the multiple results generated from the launch of the same query in each of the multiple sources(databases) that the user needs (or wants) to search. Present systems that allow searching of large domains require persons seeking information in these domains to attempt to modify their queries to reduce the search results to a size that the user can assimilate by browsing through them (thus, potentially eliminating relevant results).In many cases end users have been forced to use an intermediary (i.e., a professional searcher) because the current collections of sources are both complex and extensive, and effective search strategies often vary significantly from one source to another. Even with such guidance, potential relevant answers are missed because all potentially relevant databases or information sources are not searched on every query. Much effort has been expended on refining and improving source selection by grouping sources or database files together. Significant effort has also been expended on query formulation through the use of knowledge bases and natural language processing. However, as the groupings of sources become larger, and the responses to more comprehensive search queries become more complete, the person seeking information is often faced with the daunting task of sifting through large unorganized answer sets in an attempt to find the most relevant documents or information.3.SUMMARY OF THE INVENTIONThe invention provides an information storage, searching and retrieval system for a large domain of archived data of various types, in which the results of a search are organized into discrete types of documents and groups of document types so that users may easily identify relevant information more efficiently and more conveniently than systems currently in use. The system of the invention includes means for storing a large domain of data contained in multiple source records, at least some of the source records being comprised of individual documents of multiple document types; means for searching substantially all of the domain with a single search query to identify documents responsive to the query; and means for categorizing documents responsive to the query based on document type, including means for generating a summary of the number of documents responsive to the query which fall within various predetermined categories of document types.The query generation process may contain a knowledge base including a thesaurus that has predetermined and embedded complex search queries, or use natural language processing, or fuzzy logic, or tree structures, or hierarchical relationship or a set of commands that allow persons seeking information to formulate their queries.The search process can utilize any index and search engine techniques including Boolean, vector, and probabilistic as long as a substantial portion of the entire domain of archived textual data is searched for each query and all documents found are returned to the organizing process.The sorting/categorization process prepares the search results for presentation by assembling the various document types retrieved by the search engine and then arranging these basic document types into sometimes broader categories that are readily understood by and relevant to the user.The search results are then presented to the user and arranged by category along with an indication as to the number of relevant documents found in each category. The user may then examine search results in multiple formats, allowing the user to view as much of the document as the user deems necessary.4.BRIEF DESCRIPTION OF THE DRAWINGSFIG. 1 is a block diagram illustrating an information retrieval system of the invention;FIG. 2 is a diagram illustrating a query formulation and search process utilized in theinvention;FIG. 3 is a diagram illustrating a sorting process for organizing and presenting searchresults.5.BEST MODE FOR CARRYING OUT THE INVENTIONAs is illustrated in the block diagram of FIG. 1 , the information retrieval system of the invention includes an input/output process ,a query generation process, a search process that involves a large domain of textual data (typically in the multiple gigabyte range), an organizing process, presentation of the information to the user, and a process to identify and characterize the types of documents contained in the large domain of data.Turning now to FIG. 2, the query generation process preferably includes a knowledge base containing a thesaurus and a note pad, and preferably utilizes embedded predefined complex Boolean strategies. Such a system allows the user to enter their description of the information needed using simple words/phrases made up of "natural" language and to rely on the system to assist in generating the full search query, which would include, e.g., synonyms and alternate phraseology. The user can then request, by a command such as "VI CO 1", to view the complete documentselected from the list, giving, in this case, complete information about the identity and credentials of the expert.FIG. 3 illustrates how five typical sources of information (i.e., source records) can be sorted into many document types and then subsequently into categories. For example, a typical trade magazine may contain several types of information such as editorials, regular columns, feature articles, news, product announcements, and a calendar of events. Thus, the trade magazine (i.e., the source record) may be sorted into these various document types, and these document types in turn may be categorized or grouped into categories contained in one or more sets of categories; each document type typically will be sorted into one category within a set of categories, but the individual categories within each set will vary from one set to another. For example, one set of categories may be established for a first characteristic type of user, and a different set of categories may be established for a second characteristic type of user. When a user corresponding to type #1 executes a search, the system automatically utilizes the categories of set #1, corresponding to that particular type of user, in organizing the results of the search for review by the user. When a user from type #2 executes a search, however, the system automatically utilizes the categories of set #2 in presenting the search results to the user.The information storage, searching and retrieval system of the invention resolves the common difficulties in typical on-line information retrieval systems that operate on large (e.g., 2 gigabytes or more) domains of textual data, query generation, source selection, and organizing search results. The information base with the thesaurus and embedded search strategies allows users to generate expert search queries in their own "natural" language. Source (i.e., database) selection is not an issue because the search engines are capable of searching substantially the entire domain on every query. Moreover, the unique presentation of search results by category set substantially reduces the time and cost of performing repetitive searches in multiple databases and therefore of efficiently retrieving relevant search results.While a preferred embodiment of the present invention has been described, it should be understood that various changes, adaptations and modifications may bemade therein without departing from the spirit of the invention and the scope of the appended claims.中文译文：信息管理系统Wiliam K.Thomson U.S.A摘要：一个信息存储，查询和检索系统主要应用于大(千兆字节)的需要存档的文字领域。

专业英语一、专业术语RFID射频识别IOT物联网Cloud Computing云计算ANN神经网络BI商业智能E-business /Web-business / e-commerce电子商务KM知识管理GIS地理信息系统PDA掌上电脑Bluetooth蓝牙技术CAD计算机辅助设计CMD计算机辅助制作branch manager部门经理binary format二进制格式USB（Universal Serial Bus）通用串行总线computer case计算机机箱temporary storage of information临时存储信息floppy disk软盘CD-ROM只读光盘textual源代码video card视频卡，显卡sound card音频卡，声卡DVD数字化视频光盘SISP战略信息系统计划Project Management项目管理Human Resources人力资源End-User Systems Development最终用户系统开发rolling business plans流动业务计划MIS(management information system)管理信息系统DB（database）数据库DBMS（database Management system）数据库管理系统DSS（decision support system）决策支持系统operational manager运营经理Senior manager 高级经理semi-structured decision半结构化决策ANS（Advanced Network&Service）高级网络及服务公司TPS（Transaction Processing systems）事务管理系统KWS（Knowledge Work Systems）只是工作系统GRASP绘制机器人技术应用软件包OAS（Office Automation Systems）办公自动化系统ESS（Executive Support Systems）经理支持系统EIS（Executive Information Systems）经理信息系统OLAP（on-line analytical processing）联机分析处理GIS（Group Information Systems）集群信息系统GDSS（Group Decision Support Systems）集群决策支持系统MIT（Management Information technology）管理信息技术RAD（rapid application development）快速应用开发Two-way communications 双工通讯client-server environment 客户服务环境Data warehouse 数据仓库logistics information systems 物流信息系统ERP（Enterprise resource planning）企业资源规划CRM（customer relationship Management）客户关系管理OOD（Object-Oriented design）面向对象设计OOP（Object0Oriented Programming）面向对象编程HLLs（High Level Languages）高级语言ADTs（Abstract Data Types）抽象数据类型Software Ics软件的组成单元machine code机器码op-code输出码EDI（Electronic Data interchange）电子数据交换SMEs（small and medium sized enterprises）中小企业B2B企业对企业电子商务B2C企业对用户电子商务CERT(Character Error Rate Tester)字符出错率测试器CIAS（Communication Link Analyzer System）通信链路分析系统IMS（Information Management System）管理信息系统NDMS（Netware Data Management System）网络数据管理系统二、翻译Unit 11. Management is the attainment of organizational goals in an effective and efficient manner through planning, organizing, leading, and controlling organizational resources.管理是组织目标通过计划、组织、领导、控制组织资源实现的有效方式。

英语专业资料Management Information System is that we often say that the MIS (Management Information System), emphasizing the management, stressed that the information in modern society it has become increasingly popular. MIS is a new subject, it across a number of areas, such as scientific management and system science, operations research, statistics and computer science. In these subjects on the basis of formation of information-gathering and processing methods, thereby forming a vertical and horizontal cutting system.Management information system of modern information management is an indispensable part of the work, is to meet modern standards of high-tech information management requirements, to promote scientific management, standardization of the necessary conditions. Only information practices, in order to offer better living environment and convenient living space.Information management is an extremely important resource, management depends on the success or failure of an effective decision-making, and the correct degree of decision-making depends largely on the quality of information.In the 21st century, mankind will enter the knowledge economy era, the era of knowledge economy is the rapid development of technology and knowledge, information was explosive expansion of the times. The threat of the so-called information that this is the human face to deal with the large amount of information it difficult to deal with the state, and cause confusion results.The emergence of a computer to solve this problem, because the computer quickly and accurately as information collection, processing, use,may be provided for.With computer technology, communications technology, network technology as the representative of modern information technology leap in development, human being from the industrial age into the information age, there is growing importance of information resources development and use of "information" has become a country Economic and social development of the key links, the level of information has become the level of a country's level of modernization and an important indicator of overall national strength.Management Information System is a computer and composed, to manage information collection, transmission, processing, preservation, maintenance and use of the system, it measured the national economy and enterprises, to help achieve its planned objectives.The development of computer-aided management has experienced four stages: transaction processing, handling systems to support decision-making, integrated services.In modern society, social trends and the expansion of social demand for our products so that enterprises in production and business activities relating to the expansion of the accumulation of internal and external information, with the rapid progress of science and technology and rapid development of production, so that human knowledge of the accelerating growth rate, the increase in the amount of information , Changes in the external environment becomes faster, artificial have not qualified. How to collect sufficient information resources, strong message and take advantage of the positive and timely development of effective use of information explosion of information resources has become a modern social problems. The emergence of a computer to solve this problem, because the computer quickly and accurately as information collection, processing, use, may be provided for. Computer technology and communications technologies with great modern information technology to promote the development of national information to speed up the process, the international community to build the information highway and an upsurge of Chinese workers, "the" famous works as the representative of national projects undertaken, so that China's Enterprise Information facing the new situation.Electronic computers adapt to modern society rapidly growing amount of information management, information life short, require timely conversion problem. Information systems from electronic data processing, information reporting system, decision support system to the further development of expert systems and support the leadership of the implementation of the decision-making process information in support of strategic decision-making competition in the strategic information systems. Today's society of modern information technology extensively to the rapid penetration of social life in various fields but in the management information system applications are still very imperfect, is the initial stage. Computer support for the work of the management, not only data processing, but also to support decision-making tools, from the mass of information collection, collation, analysis provided to managers, policy-related information, relevantpolicy analysis, and even managers Interactive dialogue to generate decision-making. At present the various sectors of the computer processing of information management, in large part are still individual business rationale, in the electronic data-processing stage, and units from transaction processing system to support system to deal with the real has also established a predictive control and support functions of management decision-making Information systems. Although the information system has a certain development, business process automation control office has made great progress, but far from perfect. Should make full use of the computer processing of information, we must start from the current situation, look to the future, the development of suitable units, a small industry management system, or even one-step, such as salary management system, and then gradually improve, and constantly expanded. Management Information System is one of the characteristics of centralized data, using the database. Use database technology to address data sharing issues. Database with a certain data model organization of data, data-oriented systems, procedures independent of the data, and data independence, to reduce data redundancy and inconsistency, and easy programming, expansion, removal. In particular, the 20th century the late 1970s distributed, in the face of object database, so that data and data from the operation as an object database management system to better use and reduce the possibility of problems. Attribute their inheritance in object share data And operation of great convenience to the users. All in all management information system is set scientific。

The Design and Development of the Students' Information Management SystemAs information technology advances, various management systems have emerged to change the daily lives of the more coherent, to the extent possible, the use of network resources can be significantly reasonable reduction of manual management inconvenience and waste of time.Accelerating the modernization of the 21st century, the continuous improvement of the scientific and cultural levels, the rapid growth of the number of students will inevitably increase the pressure information management students, the inefficient manual retrieval completely incompatible with the community\'s needs. The Student Information Management Systemis an information management one kind within system, currently information technique continuously of development, the network technique has already been applied in us extensively nearby of every trade, there is the network technical development, each high schools all make use of a calculator to manage to do to learn, the school is operated by handicraft before of the whole tedious affairs all got fast and solve high-efficiencily, especially student result management the system had in the school very big function, all can be more convenient, fast for the student and the teacher coming saying and understand accurately with management everyone noodles information. AbstractIt is a very heavy and baldness job of managing a bulky database by manpower. The disadvantage, such as great capacity of work, low efficiency and long period, exist in data inputting, demanding and modification. So the computer management system will bring us a quite change.Because there are so many students in the school, the data of students' information is huge, it makes the management of the information become a complicated and tedious work. This system aims at the school, passing by practically of demand analysis, adopt mighty VB6.0 to develop the student information managementsystem. The whole system design process follow the principle of simple operation, beautiful and vivid interface and practical request. The student information management system including the function of system management, basic information management, study management, prize and punishment management , print statement and so on. Through the proof of using, the student information management system which this text designed can satisfy the school to manage the demand of the aspect to students' information. The thesis introduced the background of development, the functions demanded and the process of design. The thesis mainly explained the point of the system design, the thought of design, the difficult technique and the solutions. The student managed the creation of the system to reduce the inconvenience on the manpower consumedly, let the whole student the data management is more science reasonable.The place that this system has most the special features is the backstage database to unify the management to student's information.That system mainly is divided into the system management, student profession management, student file management, school fees management, course management, result management and print the statement.The interface of the system is to make use of the vb software creation of, above few molds pieces are all make use of the vb to control a the piece binds to settle of method to carry out the conjunction toward the backstage database, the backstage database probably is divided into following few formses:Professional information form, the charges category form, student the job form, student the information form, political feature form of student, the customer logs on the form The system used Client/Server structure design, the system is in the data from one server and a number of Taiwan formed LAN workstations. Users can check the competence of different systems in different users submit personal data, background database you can quickly given the mandate to see to the content.Marks management is a important work of school,the original manual management havemany insufficiencies,the reasons that,students' population are multitudinous in school,and each student's information are too complex,thus the work load are extremely big,the statistics and the inquiry have been inconvenient.Therefore,how to solve these insufficiencies,let the marks management to be more convenient and quickly,have a higher efficiency,and become a key question.More and more are also urgent along with school automationthe marks management when science and technology rapid development,therefore is essential to develop the software system of marks register to assist the school teaching management.So that can improve the marks management,enhance the efficiency of management.Systems Analysis and Design SystemsWorking under control of a stored program, a computer processes data into information. Think about that definition for a minute. Any given computer application involves at least three components: hardware, software, and data. Merely writing a program isn’t enough, because the program is but one component is in a system.A system is a group of components that work together to accomplish an objective. For example, consider a payroll system. Its objective is paying employees. What components are involved? Each day, employees record their hours worked on time cards. At the end of each week, the time cards are collected and delivered to the computer center, where they are read into a payroll program. As it runs, the program accesses data files. Finally, the paychecks are printed and distributed. For the system to work, people, procedures, input and output media, files, hardware, and software must be carefully coordinated. Note that the program is but one component in a system.Systems AnalysisComputer-based systems are developed because people need information. Those people,called users, generally know what is required, but may lack the expertise to obtain it. Technical professionals, such as programmers, have the expertise, but may lack training in the user’s field. To complicate matters, users an d programmers often seem to speak different languages, leading to communication problems. A systems analyst is a professional who translates user needs into technical terms, thus serving as a bridge between users and technical professionals.Like an engineer or an architect, a systems analyst solves problems by combining solid technical skills with insight, imagination, and a touch of art. Generally, the analyst follows a well-defined, methodical process that includes at least the following steps: Problem definitionAnalysisDesignImplementationMaintenanceAt the end of each step, results are documented and shared with both the user and the programmers. The idea is to catch and correct errors and misunderstandings as early as possible. Perhaps the best way to illustrate the process is through example.Picture a small clothing store that purchases merchandise at wholesale, displays this stock, and sells it to customers at retail. On the one hand, too much: stock represents an unnecessary expense. On the other hand, a poor selection discourages shoppers. Ideally, a balance can be achieved: enough, but not too much.Complicating matters is the fact that inventory is constantly changing, with customer purchases depleting stock, and returns and reorders adding to it. The owner would like to track inventory levels and reorder any given item just before the store runs out. For a single item, the task is easy-just count the stock-on-hand. Unfortunately, the store has hundreds of different items, and keeping track of each one is impractical. Perhaps a computer might help.Problem DefinitionThe first step in the systems analysis and design process is problem definition. Theanalyst’s objective is determining what the user needs. Note that, as the process begins, the user possesses the critical information, and the analyst must listen and learn. Few users are technical experts. Most see the computer as a “magic box,” and are not concerned with how it works. At this stage, the analyst has no business even thinking about programs, files, and computer hardware, but must communicate with the user on his or her own terms.The idea is to ensure that both the user and the analyst are thinking about the same thing. Thus, a clear, written statement expressing the analyst’s underst anding of the problem is essential. The user should review and correct this written statement. The time to catch misunderstandings and oversights is now, before time, money, and effort are wasted. Often, following a preliminary problem definition, the analyst performs a feasibility study. The study, a brief capsule version of the entire systems analysis and design process, attempts to answer three questions:1.Can the problem be solved?2.Can it be solved in the user’s environment?3.Can it be solved at a reasonable cost?If the answer to any one of these questions is no, the system should not be developed. Given a good problem definition and a positive feasibility study, the analyst can turn to planning and developing a problem solution.AnalysisAs analysis begins, the analyst understands the problem. The next step is determining what must be done to solve it. The user knows what must be done; during analysis, this knowledge is extracted and formally documented. Most users think in terms of the functions to be performed and the data elements to be manipulated. The objective is to identify and link these key functions and data elements, yielding a logical system design. Start with the system’s basic functions. The key is keeping track of the stock-on-hand for each product in inventory. Inventory changes because customers purchase, exchange, and return products, so the system will have to process customer transactions. The store’s owner wants to selectively look at the inventory level for any product in short supply and,if appropriate, order replacement stock, so the system must be able to communicate with management. Finally, following management authorization, the system should generate a reorder ready to send to a supplier.Given the system’s basic functions, the analyst’s next task is gaining a sense of their logical relation. A good way to start is by describing how data flow between the functions. As the name implies, data flow diagrams are particularly useful for graphically describing these data flows. Four symbols are used. Data sources and destinations are represented by squares; input data enter the system form a source, and output data flow to a destination. Once in the system, the data are manipulated or changed by processes, represented by round-corner rectangles. A process might be a program, a procedure, or anything else that changes or moves data. Data can be held for later processing in data stores, symbolized by open-ended rectangles. A data store might be a disk file, a tape file, a database, written notes, or even a person’s memory. Finally, data flow between sources, destinations, processes, and data stores over data flows, which are represented by arrows. Preliminary data flow diagram for the inventory system. Start a CUSTOMER. Transactions flow from a customer into the system, where they are handled by Process transaction. A data store, the STOCK, holds data on each item in inventory. Process transaction changes the data to reflect the new transaction. Meanwhile, MANAGEMENT accesses the system through Communicate, evaluating the data in STOCK and, if necessary, requesting a recorder. Once a reorder is authorized, Generate reorder sends necessary data to the SUPPLIER, who ships the items to the store. Note that, because the reorder represents a change in the inventory level of a particular product or products, it is handled as a transaction.The data flow diagram describes the logical system. The next step is tracing the data flow. Start with the destination SUPPLIER. Reorders flow to suppliers; for example, the store might want 25 pairs of jeans. To fill the order, the supplier needs the product description and the reorder quantity. Where do these data elements come from? Since they are output by Generate reorder, they must either be input to or generated by this process. Data flow into Generate reorder for STOCK; thus, product and reorder quantities must be stored inSTOCK.Other data elements, such as purchased and the purchase quantity, are generated by CUSTOMER. Still others, for example selling price and reorder point, are generated by or needed by MANAGEMENT. The current stock –on-hand for a given item is an example of a data element generated by an algorithm in one of the procedures. Step by step, methodically, the analyst identifies the data elements to be input to, stored by, manipulated by, generated by, or output by the system.To keep track of the data elements, the analyst might list each one in a data dictionary. A simple data dictionary can be set up on index cards, but computerized data dictionaries have become increasingly popular. The data dictionary, a collection of data describing and defining the data, is useful throughout the systems analysis and design process, and is often used to build a database during the implementation stage.The idea of analysis is to define the system’s major functions and data elements methodically. Remember that the objective is translating user needs into technical terms. Since the system starts with the user, the first step is defi ning the user’s needs. Users think in terms of functions and data. They do not visualize programs, or files, or hardware, and during this initial, crucial analysis stage, it is essential that the analyst think like a user, not like a programmer.Data flow diagrams and data dictionaries are useful tools. They provide a format for recording key information about the proposed system. Also, they jog the analyst’s memory; for example, if the analyst doesn’t have sufficient information to complete a data dictionary entry, he or she has probably missed something. Perhaps most importantly, the data flow diagram and the data dictionary document the analyst’s understanding of the system requirements. By reviewing these documents, the user can correct misunderstanding or oversights. Finally, they represent an excellent starting point for the next step, design.DesignAs we enter the design stage, we know what the system must do, and thus can begin thinking about how to do it. The objective is to develop a strategy for solving the problem.At this stage, we are not interested in writing code or in defining precise data structures; instead, we want to identify, at a black box level, necessary programs, files, procedures, and other components.The data flow diagram defines the system’s necessary functions; how might they be implemented? One possibility is writing one program for each process. Another is combining two or more processes in a single program; there are dozens of alternative solutions. Let’s focus on one option a nd document it.A system flowchart uses symbols to represent programs, procedures, hardware devices, and the other components of a physical system. Our flowchart shows that transaction data enter the system through a terminal, are stored on an inventory by a data collection program, and then are stored on an inventory file. Eventually, the inventory file is processed by a Report and reorder program. Through it, management manipulates the data and authorizes reorders.Look at the system flowchart. It identifies several hardware components, including a computer, a disk drive, a data entry terminal, a printer, and a display terminal. Tow programs are needed: Process transaction and Report and reorder. In addition to the hardware and the programs, we’ll need dat a structures for the inventory file and for data flows between the I/O devices and the software. Note that system flow chart illustrates one possible solution; a good analyst will develop several feasible alternatives before choosing one.The flowchart maps the system, highlighting its major physical components. Since the data link the components, the next task is defining the data structures. Consider, for example, the inventory file. It contains all the data elements from the data store STOCK. The data el ements are listed in the data dictionary. Using them, the file’s data structure can be planned.How should the file be organized? That depends on how it will be accessed. For example, in some applications, data are processed at regular, predictable intervals. Typically, the data are collected over time and processed together, as a batch. If batch processing is acceptable, a sequential file organization is probably best.It is not always possible to wait until a batch of transactions is collected, however. For example, consider an air defense early warning system. If an unidentified aircraft is spotted, it must be identified immediately; the idea of waiting until 5:00 p. m because “that’s when the air defense program is run” is absurd. Instead, because of the need for quick response, each transaction must be processed as it occurs. Generally, such transaction processing systems call for direct access file.Our inventory system has tow programs. One processes transactions. A direct access inventory file seems a reasonable choice. The other allows management to study inventory data occasionally; batch processing would certainly do. Should the inventory file be organized sequentially or directly? Faced with such a choice, a good analyst considers both options. One possible system might accept transactions and process them as they occur. As an alternative, sales slips might be collected throughout the day and programs would deal with direct access files; in the second system, they would be linked to sequential files. A program to process direct access data is different from a program to process sequential data. The data drive the system. The choice of a data structure determines the program’s structure. Note that the program is defined and planned in the context of the system.ImplementationOnce the system’s major components have been identified, we can begin to develop them. Our system includes two programs, several pieces of equipment, and a number of data structures. During implementation, each program is planned and written using the techniques described in Chapter 7. Files are created, and their contents checked. New hardware is purchased, installed, and tested. Additionally, operating procedures are written and evaluated. Once all the component parts are ready, the system is tested. Assuming the user is satisfied, the finished system is released.SummaryA system is a collection of hardware, software, data, and procedural components that work together to accomplish an objective. A program is but one component in a system. System are planned and designed by system analysts who generally follow a well-defined,methodical process. The first step in the process is problem definition, when the analystattempts to discover exactly what the user needs. Often, following a preliminary problem definition, a feasibility study is conducted to determine if the problem can be solved. Given a clear problem definition, analysis begins. During this stage, the analyst develops a logical model of the system. Key functions are linked through a data flow diagram. Using the diagram as a tool, the data flows are traced, and the system’s data elements are identified and recorded in a data dictionary. After the logical system isreviewed with the user, design begins.During design, the analyst develops a model of the physical system. A system flowchart can be used to map the system, defining each physical component as a symbol. A good systems analyst considers a number of alternative solutions to the problem before settling on one. Implementation follows design. Programs are planned and written; hardware is ordered and installed; procedures are written; files and databases are initialized; and, finally, the pieces are assembled and tested. Following release of the system, maintenancebegins.学生信息管理系统的设计与发展随着信息技术的日新月异,各种管理系统的相继出现,让日常生活变的更加具有条理化, 尽可能的合理的运用网络资源可以大大的减少人工管理上带来的不便及时间的浪费.二十一世纪现代化程度的不断加速,科学文化水平的不断提高,学生数量的急剧增长，势必增加了管理学生信息带来的压力，人工检索的低效完全不符合整个社会的需要.学生信息管理系统是信息管理系统中的一种，目前信息技术不断的发展，网络技术已经广泛的应用于我们身边的各行各业，有了网络技术的发展，各高校都利用计算机来管理办学，以前学校靠手工操作的一切繁琐事情都得到了快速且高效率的解决，特别是学生成绩管理系统在学校中起到了很大的作用，对于学生和教师来说都能够更方便、快捷、准确地了解和管理各方面信息。

专业英语信息资源管理English:Information Resource Management (IRM) is a critical aspect of modern business operations, involving the strategic and efficient management of information resources within an organization. This encompasses the planning, development, implementation, and maintenance of various information systems and technologies to support the organization's information needs. The goal of IRM is to ensure that information resources are effectively utilized, secured, and aligned with the overall business strategy. This involves the careful management of data, knowledge, and technology assets to enhance organizational performance. IRM professionals are responsible for analyzing the organization's information needs, identifying technological solutions, and implementing strategies to optimize the use of information resources. Additionally, they play a crucial role in ensuring compliance with data governance and security standards, as well as facilitating communication and collaboration across different departments within the organization.中文翻译:信息资源管理（IRM）是现代企业运营的关键方面，涉及组织内信息资源的战略和有效管理。

信息管理英语教程_中英文对照翻译(一至四篇)1.What is information?information is part of all human experience .Acquiring and processing information are fundamental aspect of life itself current interest in a “science”of information has develop as the result of the complexity of life’s problem.The rapid development of technology,the growth of knowledge,and the fast pace of the modern world create an increasing awareness of the importance of information and the need for professionals dedicate to studying and understanding it信息是人类所有经验的一部分。

获取信息并对信息进行处理是生活本身的重要方面。

目前人们对信息“科学”兴趣的增长是由于生活中的问题复杂化的结果所知。

技术的快速发展,知识的增加,现代社会的快节奏,这一切都使人们对信息的重要性以及对专门研究理论专业人员的需求认识德越来越清楚。

2. The late scholar Fritz Machlup carefully accessed the different meaning associated with information. some interpretation that have been made from these sources are as follow:Something one didn’t know beforeHow data are interpretedA clueSomething that effort what one already knowSomething useful in some way to the person receiving itSomething used in decision makingSomething that reduces uncertaintyThe meaning of word in sentencesSomething that provide more than what is statedSomething that changes what a person who receive it believes or expects晚学者弗里茨?马克卢普通过仔细分析这些相关信息的不同意义。