管理信息系统中英文翻译资料

管理信息系统英语结构表达法管理信息系统（Management Information System，简称MIS）是指在组织中使用计算机和通信技术来收集、处理、存储和传递信息的系统。

它是一个综合性的系统，由硬件、软件、数据库、网络和人员组成，旨在支持管理决策和组织运营。

MIS的英语结构表达法可以根据不同的方面进行解释。

以下是一些常见的MIS相关术语及其解释：1. Management Information System (MIS)MIS refers to a comprehensive system that utilizes computer and communication technologies to collect, process, store, and transmit information within an organization. It comprises hardware, software, databases, networks, and personnel, and is designed to support managerial decision-making and organizational operations.2. HardwareHardware refers to the physical components of a computer system, such as the central processing unit (CPU), memory, storage devices, input devices (e.g., keyboard, mouse), and output devices (e.g., monitor, printer). It provides the necessary infrastructure for running softwareand storing data.3. SoftwareSoftware refers to the programs, instructions, and data that control and operate computer hardware. It includes operating systems, application software, and utility programs. Operating systems manage computer resources, while application software enables specific tasks or functions to be performed, such as word processing or data analysis.4. DatabaseA database is an organized collection of data that is stored and accessed electronically. It consists of tables, records, and fields, where tables represent entities, records represent individual instances, and fields represent specific data elements. Databases enable efficient storage, retrieval, and manipulation of data for use in MIS.5. NetworkA network is a collection of interconnected devices, such as computers, servers, and routers, that facilitate communication and information sharing. Networks can be local area networks (LANs), connecting devices within a limited geographical area, or wide area networks (WANs), connecting devices across larger distances. They enable datatransmission and resource sharing among users in an MIS.6. PersonnelPersonnel in an MIS context refer to the individuals who operate, maintain, and utilize the system. They include IT professionals responsible for system administration, database management, software development, and user support. Personnel play a crucial role in ensuring the effective functioning and utilization of MIS within an organization.以上是对管理信息系统英语结构表达法的解释，希望能够对您有所帮助。

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。

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 efforthas 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 the invention;FIG. 3 is a diagram illustrating a sorting process for organizing and presenting search results.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 document selected 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 inturn 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 be made 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。

毕业设计(论文)外文资料翻译学院：计算机工程学院专业：通信工程姓名：学号：1081302228外文出处：/space.php?uid=7433&do=blog&id=5689(用外文写)附件： 1.外文资料翻译译文；2.外文原文。

注：请将该封面与附件装订成册。

附件1：外文资料翻译译文信息管理系统对于“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。

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。

英文文献翻译二〇年月日科技文章摘译Definition of a Management Information SystemThere is no consensus of the definition of the term "management information system". Some writers prefer alternative terminology such as "information processing system", "information and decision system", "organizational information system", or simply "information system" to refer to the computer-based information processing system which supports the operations, management, and decision-making functions of an organization. This text uses “MIS” because it is descriptive and generally understood; it also frequently uses “information system” instead of “MIS” to refer to an organizational information system.A definition of a management information system, as the term is generally understood, is an integrated, user-machine system for providing information to support operations, management, and decision-making functions in an organization. The system utilizes computer hardware and software; manual procedures; models for analysis planning, control and decision making; and a database. The fact that it is an integrated system does not mean that it is a single, monolithic structure; rather, it means that the parts fit into an overall design. The elements of the definition are highlighted below.1 Computer-based user-machine systemConceptually, management information can exist without computer, but it is the power of the computer which makes MIS feasible. The question is not whether computers should be used in management information system, but the extent to which information use should be computerized. The concept of a user-machine system implies that some tasks are best performed by humans, while others are best done by machine. The user of an MIS is any person responsible for entering input data, instructing the system, or utilizing the information output of the system. For many problems, the user and the computer form a combined system with results obtained through a set of interactions between the computer and the user.User-machine interaction is facilitated by operation in which the user’s input-output device (usually a visual display terminal) is connected to the computer. The computer can be a personal computer serving only one user or a large computer that serves a number of users through terminals connected by communication lines. The user input-output device permits direct input of data and immediate output of results. For instance, a person using the computer interactively in financial planning poses “what if” questions by entering input at the terminal keyboard; the results are displayed on the screen in a few second.The computer-based user-machine characteristics of an MIS affect the knowledge requirements of both system developer and system user. “computer-based” means that the designer of a management information system must have knowledge of computers and of their use in processing. The “user-machine” concept means the system designer should also understand the capabilities of humans as system components (as information processors) and the behavior of humans as users of information.Information system applications should not require users to be computer experts. However, users need to be able to specify their information requirements; some understanding of computers, the nature of information, and its use in various management function aids users in this task.2 Integrated systemManagement information system typically provides the basis for integration of organizational information processing. Individual applications within information systems are developed for and by diverse sets of users. If there are no integrating processes and mechanisms, the individual applications may be inconsistent and incompatible. Data item may be specified differently and may not be compatible across applications that use the same data. There may be redundant development of separate applications when actually a single application could serve more than one need. A user wanting to perform analysis using data from two different applications may find the task very difficult and sometimes impossible.The first step in integration of information system applications is an overall information system plan. Even though application systems areimplemented one at a time, their design can be guided by the overall plan, which determines how they fit in with other functions. In essence, the information system is designed as a planed federation of small systems.Information system integration is also achieved through standards, guidelines, and procedures set by the MIS function. The enforcement of such standards and procedures permit diverse applications to share data, meet audit and control requirements, and be shares by multiple users. For instance, an application may be developed to run on a particular small computer. Standards for integration may dictate that the equipment selected be compatible with the centralized database. The trend in information system design is toward separate application processing form the data used to support it. The separate database is the mechanism by which data items are integrated across many applications and made consistently available to a variety of users. The need for a database in MIS is discussed below.3 Need for a databaseThe term “information” and “data” are frequently used interchangeably; however, information is generally defined as data that is meaningful or useful to the recipient. Data items are therefore the raw material for producing information.The underlying concept of a database is that data needs to be managed in order to be available for processing and have appropriate quality. This data management includes both software and organization. The software to create and manage a database is a database management system.When all access to any use of database is controlled through a database management system, all applications utilizing a particular data item access the same data item which is stored in only one place. A single updating of the data item updates it for all uses. Integration through a database management system requires a central authority for the database. The data can be stored in one central computer or dispersed among several computers; the overriding requirement is that there is an organizational function to exercise control.4 Utilization of ModelsIt is usually insufficient for human recipients to receive only raw data or even summarized data. Data usually needs to be processed andpresented in such a way that the result is directed toward the decision to be made. To do this, processing of data items is based on a decision model. For example, an investment decision relative to new capital expenditures might be processed in terms of a capital expenditure decision model.Decision models can be used to support different stages in the decision-making process. “Intelligence” models can be used to search for problems and/or opportunities. Models can be used to identify and analyze possible solutions. Choice models such as optimization models maybe used to find the most desirable solutionIn other words, multiple approaches are needed to meet a variety of decision situations. The following are examples and the type of model that might be included in an MIS to aid in analysis in support of decision-making; in a comprehensive information system, the decision maker has available a set of general models that can be applied to many analysis and decision situations plus a set of very specific models for unique decisions. Similar models are available for planning and control. The set of models is the model base for the MIS.The management information system (MIS) not only supports the underlying bed administrator, moreover may support the intermediate deck personnel's control check, for high level also can provide certain information. The management information system frame by four parts: Information source, information processor, information user and information superintendent. The information source is the information production place; Information processor burden task/role and so on information transmission, processing, save; The information user is the information user, carries on the decision-making using the information; The information superintendent is responsible for the information system the design, the implementation and the safeguarding. The management information system is regarded as generally a pyramid shape the structure, divides into from the lower level handling of traffic to the operating control, the control check, the topmost story strategic planning. The most basic unit greatly processes the numerous and diverse transaction information and the state information framing by the task/role.In a word, the management information system (Management InformationSystem, MIS), is by the artificial leadership, using the computer hardware, the software, the network communicates these devices and other office equipments carries on the information the collection, the transmission, the processing, the storage, the update and the safeguarding by achieved the enterprise strategy competes superior, enhances the benefit and the efficiency target, supports the enterprise the high level decision-making, the intermediate deck check and the basic unit operation integration man-machine system. MIS is the superintendent provides the report, provides the enterprise the recent situation as well as the historic record. This system main localization is aims at in the enterprise, for control function and so on level plan, check and decision-making serves, provides the data generally by the lower level handling of traffic system. MIS will be able the actual enterprise's each kind of run situation, and using the past historical data forecast future, embarks the assistance enterprise from the enterprise overall situation angle to carry on the decision-making, used the message control enterprise the behavior, helped the enterprise to achieve its plan管理信息系统的定义对于“管理信息系统”并没有一致的定义。

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。

英文全称：Management Information System中文翻译：管理信息系统简释：MIS是指对企业大量的原始管理数据进行收集、整理，支持查询、汇总等方面的工作。

2英文缩写：MRP英文全称：Material Require Planning中文翻译：材料需求计划简释：MRP 是指依据客户订单或市场预测信息，按照产品结构清单（BOM）展开并计算出物料需求计划，实现在保证供应的前提下减少库存，优化库存的目的3英文缩写：MRPⅡ英文全称：Manufacturre Resource Planning Ⅱ中文翻译：制造资源规划简释：MRP 中的MR与MRP Ⅱ中的MR是完全不同的含义，从英文的原意中可以看出，前者是指材料需求，后者是指制造资源。

制造资源包括材料（Material）、人力（Manpower）、设备（Machine）、资金（Money）及数据（Data）,这五种资源简称为4M1D。

MRPⅡ是在MRP的基础上发展起来的，它从单一的材料需求发展到对整个制造过程中需要的各种资源（4M1D）进行统一规划，实现了对产供、销全过程的控制。

4英文缩写：ERP英文全称：Enterprise Resources Plannig中文翻译：企业资源规划简释：ERP是在MRPⅡ的基础上发展起来的, 与MRPⅡ相比，两者并无本质的区别。

两者的差异在于后者使用了创新的信息科技，如图形使用者接口、关系型数据库、第四代语言、开放式系统平台、主从式架构等。

另一方面，由于采用互联网技术，ERP系统拓宽到位于不同位置的各地区工厂、仓库、营业点、分公司、办事处、研究机构等。

让分散在全球各地的员工能“天涯若比邻”般地进行团队协调工作。

ERP系统在企业供应链管理思想的指导下，体现精益生产、敏捷制造、同步工程、全质管理、结合及时供补（JIT），消除无效劳动和浪费，降低库存和缩短交货期，结合约束理论（TOC)，找出供需链上的瓶颈，扩大供需链的有效产出。

International Journal of Information Management 29(2009)104–110Contents lists available at ScienceDirectInternational Journal of InformationManagementj o u r n a l h o m e p a g e :w w w.e l s e v i e r.c o m /l o c a t e /i j i n f o m gtManagement information systems and strategic performances:The role of top team compositionDavid Naranjo-Gil ∗Pablo de Olavide University,Carretera Utrera Km.1,41013Sevilla,Spaina r t i c l e i n f o Keywords:Management information systems Information characteristics Strategic performanceTop management team compositiona b s t r a c tOrganizations adopt sophisticated management information systems,which provide top managers with an ample range of information to achieve multiple strategic performances.However,organizations differ in the extent to which they improve their performance.This paper analyzes the role of top management team in the relationship between management information systems and strategic ing data collected from 92top management teams,it analyses how different team compositions interact with a sophisticated management information system,and how this interaction affects strategic performances,which are focused on cost reduction and flexibility.The findings show how the effect of management information system on strategic performance (focused on flexibility)is moderated by top management team diversity.©2008Elsevier Ltd.All rights reserved.1.IntroductionThe enhanced competition in the private and public sector has spurred organizations into delivering greater efficiency,quality and more flexibility of services (Kaul,1997).This condition imposes additional demands on the organization’s information processing capabilities.In trying to achieve these strategic objectives,organi-zations adopt more sophisticated and comprehensive management information systems (MISs)(Choe,1996;Ghorab,1997).These provide top managers with a comprehensive and broad range of information about multiple dimensions of the firm’s operations (Choe,1996,2004),facilitating decision-making and performance achievement (Kaplan &Norton,1996;Kim &Lee,1986).Organiza-tions,however,differ in the extent to which they achieve strategic performance successfully.This paper addresses the relationship between sophisticated MIS and top management teams (TMTs),as the set of managers ultimately responsible for strategy manage-ment and organizational performance.Management literature has recognized that TMTs with different demographical characteristics (e.g.age,tenure,experience and education)are generally expected to gather diverse information and display higher-quality decisions (Carpenter,Geletkanycz,&Sanders,2004;Finkelstein &Hambrick,1996).Management and information literatures have recognized (implicitly)the use of information by managers,and the ques-tion that remains is how (explicitly)different top managers use∗Tel.:+34954349847.E-mail address:dnargil@upo.es .MIS for strategic management (Lin,2006;Hagan,Watson &Barron,2007).Although the effect of MIS on performance is widely recognized,prior findings on the direct and indirect relationship between and (strategic)performance far are mixed and confused (Fuller-Love &Cooper,1996;Choe,2004).The present study attempts to pro-vide some clarification of the relationship between MIS design and strategic performance,by explicitly analyzing the role of TMT composition.Our general hypothesis is that diversity of TMT com-position supports more sophisticated MIS in ways that contribute to multiple strategic performance,which are focused on cost con-trol and flexibility (Gupta &Govindarajan,1984;Lederer &Smith,1989).We follow upper echelon literature,which views organiza-tions as a reflection of their TMT (Hambrick &Mason,1984).Upper echelon theory focuses on observable,demographic characteristics of TMT members to explain organizational outcomes (Finkelstein &Hambrick,1996).This study also uses a contingency approach for analyzing the interaction fit between MIS sophistication and TMT composition.Contingency approach is the only one which asserts that performance depends on the existence of an alignment between several organizational characteristics,such as information systems,organizational structure and strategy (Choe,1996;Kim &Lee,1986).Data were collected from 92TMTs in public hospitals in Spain,where organizations have to implement strategies focused both on cost-efficiency,flexibility and quality of service (Naranjo-Gil &Hartmann,2006).This paper attempts to contribute to the manage-ment and information literature in several ways.First,this research provides evidence of the important role of TMT composition in the0268-4012/$–see front matter ©2008Elsevier Ltd.All rights reserved.doi:10.1016/j.ijinfomgt.2008.05.009D.Naranjo-Gil/International Journal of Information Management29(2009)104–110105effectiveness of MIS on strategic performance.While prior research suggests that the MIS design enables organizations to enhance strategic performance,this paper directly tests the presence of this relationship and examines a strategic performance outcome of the enabling effect.Second,the present study offers a more integral explanation of the alignment between MIS design and performance by explicit consideration of different characteristics of the TMT (Hagan et al.,2007).Third,we test our hypotheses in a setting where similar organizations have to achieve multiple strategic per-formances,albeit to different extents(Madorrán&Val Pardo,2005; Brittain&Macdougall,1995).Thus,this context provides an oppor-tunity to analyze the interactive effect of TMT diversity and MIS design on strategic performance,as it control the diversity as an antecedent of management information use and processing(Yoo& Alavi,2001).Fourth,this paper adds to the limited knowledge on the relevance of management information system design forfirms achieving multiple strategic objectives.The remainder of this paper is structured as follows.Section2 develops the hypotheses about the relationships between TMT,MIS and performance.Section3describes the empirical survey study and the measurement of variables.Section4presents the results. Finally,Section5presents the discussion and conclusions of this study.2.Theoretical development and hypotheses formulation2.1.MIS and strategic performanceManagers operating in competitive contemporary environ-ments need comprehensive information in order to manage the important parts of the organization’s operations and thus achieve different strategic goals(Kaplan&Norton,1996).Managers’per-ception is an important factor that influences the actual use of MIS and the acceptance of new information systems(Ghorab, 1997,p.250).MIS can provide managers with a variety of infor-mation,thus Choe(1996)identified MIS design according to the perceived usefulness of four information dimensions:scope,aggre-gation,integration and timeliness(Chenhall&Morris,1986;Choe, 1996).These dimensions have been analyzed extensively in man-agement and information system literatures(Choe,1996,2004; Lederer&Smith,1989).Scope refers to the type and extension of MIS information in time and space.Narrow-scope information is derived fromfinancial information internal to the organization and with a historic orientation.Alternatively,broad-scope information includes external,non-financial and future oriented information (Choe,1996).Aggregation refers to the way data is aggregated over time periods,departments or functions.Integration refers to the interaction and coordination of information among differ-ent functions in the organization.Finally,timeliness refers to the frequency and speed of reporting(e.g.,short or long run).Sev-eral authors have extended the four information characteristics to describe accounting systems in terms of MIS sophistication(Choe, 1996;Ghorab,1997;Naranjo-Gil,2004).MIS sophistication refers to a range of information available for managers,which is perceived as being useful.The sophisticated MIS design provides informa-tion which has a high average level of information content in the four information dimensions.That is,it provides information which is broad-scope,high coordinated,high reporting frequency,and integrated among different organizational functions(Choe,1996, 2004).A sophisticated MIS provides managers with a comprehensive range of information to achieve different strategic goals(Fuller-Love &Cooper,1996;Kaplan&Norton,1996).Following Porter(1985) and Miller(1988)we distinguish two strategic goals,such as cost reduction andflexibility strategic goals.In this vein,Fuller-Love and Cooper(1996)asserted that increases in expenditure on pub-licfirms have led governments worldwide to attempt to reduce these costs and to increase organizationalflexibility to be more competitive(Miller,1988;Madorrán&Val Pardo,2005).A cost-based strategic objective focuses on internal efficiency and cost control,and thus tends to emphasize current organizational struc-tures rather than adopt new ones(Miller,1988;Porter,1985).A flexibility-based strategic goal focuses on diversification,coordi-nation and decentralization within the organization(Fuller-Love& Cooper,1996;Porter,1985).Organizations are unlikely to achieve one strategic performance(e.g.,cost reduction)to the extent of excluding the other(Porter,1985).Furthermore,organizations may often perform better on one strategic objective than the other since they have different organizational capabilities(Gupta& Govindarajan,1984;Miller,1988).Asflexibility-related strategic goals require cross-functional interaction and decentralization,it allows relationships between inputs and outputs of activities to be less clear(Miller,1988; Porter,1985).Managers will require an extended set of man-agement information that provide more insight in the various parts of the transformation processes(Fuller-Love&Cooper,1996; Kyung,1990).In contrast cost-related strategic performances focus on standardization and comparability of activities and processes (Naranjo-Gil&Hartmann,2006),which demands the use of a narrow set of information,which expresses cost control objec-tives infinancial(monetary)and aggregated terms(Choe,1996), facilitating comparability of tasks and outputs across the orga-nization(Chang,Chang,&Paper,2003,Kyung,1990).Thus,we argue that a sophisticated MIS supports strategic performances in overall,but that this support may be more crucial for achieving flexible-related strategic performance than cost-related strategic performance.Therefore,we propose the following hypotheses:H1.There is a positive relationship between a sophisticated MIS and strategic performances focused on(a)flexibility and(b)cost reduction.H2.A sophisticated MIS is more positively related to strategic performance focused onflexibility than to strategic performance focused on cost reduction.2.2.MIS,TMT diversity and performanceThe MIS provides the same information to each manager in a TMT,but the actual selection and use of information is deter-mined by personal preferences.Upper echelon literature argues that these preferences are based on managers’characteristics,such as experience,age,tenure and educational background(Hambrick &Mason,1984).One important determinant of TMTs’ability to process information and optimize decision-making is the TMTs’diversity in terms of demographic background(Carpenter et al., 2004;Finkelstein&Hambrick,1996).Heterogeneous TMTs,con-sisting of managers with varying skills and demographic profiles, have been argued to process different types of information and make better-informed decisions(Carpenter et al.,2004;Hagan et al.,2007).In contrast,homogeneous TMTs,consisting of managers with similar demographical characteristics,have been associated to high group cohesiveness and enhanced control over members (Finkelstein&Hambrick,1996;Hambrick&Mason,1984).A heterogeneous TMT has a greater variety of professional perspectives,know more of operations,and can pay more atten-tion to different organizational activities(Carpenter et al.,2004; Simons,Pelled,&Smith,1999).A diverse TMT will search,interpret and gather information from a variety of sources,as determined by their background and cognitive make-up(Hagan et al.,2007; Wiersema&Bantel,1992).We argue that sophisticated and broad106 D.Naranjo-Gil /International Journal of Information Management 29(2009)104–110Fig.1.The general model.management information system will be especially valued by TMT with a diverse composition.One reason is that TMT is more effective in complex decision-making when composed of indi-viduals having a variety of knowledge,abilities and perspectives (Gupta &Govindarajan,1984;Carpenter et al.,2004),and thus a heterogeneous TMT will understand the relevance of sophisticated information to achieve multiple strategic performances.We expect that TMT diversity not only spurs managers to broad information but also enables managers to process a comprehensive range of management information (Young,Yang &Shortell,2001).A diverse TMT will attach higher value to sophisticated MIS,which provide a broader range of information to achieve multiple strategic per-formances.Thus,we can expect that sophisticated MIS contribute more to strategic performances when diversity is high in the TMT.Therefore,we will test the moderating effect of TMT diversity on the relationship between sophisticated MIS and strategic performances focused on both flexibility and cost reduction (see Fig.1).The following hypothesis is formulated:H3.Top Management Team diversity will moderate the rela-tionship between sophisticated MIS and strategic performances focused on (a)flexibility and (b)cost reduction.3.Empirical studyData were collected in a survey study among 884members of top management teams in 218hospitals in Spain.The Public Hospital sector has been the object of some recent studies exploring the rela-tionship of management information systems,performance and strategy (Zheng et al.,2006;Lorence &Spink,2004).Furthermore,the health care industry,not only in Spain but also worldwide,is undergoing fundamental shifts in managing and operating demand changes into an effective and flexible new health care system (Liang,Xue,Byrd,&Rainer,2004;Madorrán &Val Pardo,2005).Span-ish authorities encourage public hospitals to achieve performance goals focused on controlling cost and increasing organizational flex-ibility and decentralization.This assures that the issues central to this study are relevant for the target population.This also had positive consequences for the willingness to cooperate.The TMTs data was obtained through the Spanish National Cat-alogue of Hospitals,and updated through Internet and telephone calls.TMTs consist on average of a CEO,a Medical director,a Nurs-ing director,and an Administrative-Financial director.We sent the questionnaire to every member of a TMT individually,following the distribution and recollection procedures suggested by Dillman (2000).A satisfactory response rate was achieved with 496(56.10%)questionnaires returned of which 473(53.51%)were deemed usefulfor further analysis.From these data,92full TMTs were formed for which all members responded.3.1.Measurement of variablesSophisticated MIS was measured following Chenhall and Morris (1986)and Choe (1996).We developed an instrument to measure the usefulness of available management accounting information.We asked questions regarding different informational dimensions,such as scope,timeliness,aggregation and integration.Managers had to state the extent to which they perceived that their hospi-tal’s MIS provided each of the dimensions identified.We treated all information characteristics as complementary to construct the variable sophistication of MIS design by averaging the scores for all items (Naranjo-Gil,2004).The Cronbach alpha for the overall scale was 0.782,exceeding the recommended minimum level (Nunally,1978).The appendix contains details of variables and questions included in the questionnaire.Top management team diversity was measured following the upper echelons tradition (Carpenter et al.,2004;Finkelstein &Hambrick,1996),which focuses on four demography character-istics of TMTs,such as age,tenure,education and experience.Regarding age and tenure,managers were asked to indicate their age and tenure in management position in their actual organization 1.Then age diversity and tenure diversity were mea-sured using the coefficient of variation (standard deviation divided by the mean),which is the superior measure as it provides a direct,and scale-invariant measure of dispersion (Allison,1978).Scale invariant measures are desirable because they are sensitive to relative rather than absolute differences.Regarding education and experience,managers were asked to indicate their educa-tional university degree and their years of functional experience;the responses were coded in two broad areas (Wiersema &Bantel,1992)2:External-Administrative Oriented (e.g.Business,Economics,Law)and Internal-Process Oriented (e.g.Medicine,Nursing,Biology and Chemistry).Educational diversity and expe-rience diversity were measured using Blau’s (1977)index of heterogeneity,since categorical variables are not amenable to the coefficient of variation measure.Blau Heterogeneity Index is cal-culated as (1− 2i ),where p i is the proportion of the team in the i th educational (or functional)category.A score of zero would1Managers’tenures lie between 2and 11years.Managers’ages lie between 30and 56years.2We used two categories since the vast majority of managers (89.1%)indicated to have a degree related to either Business-Economics-Law or Medical-Nursing.D.Naranjo-Gil/International Journal of Information Management29(2009)104–110107Table1Descriptive statistics for variables(n=92).Variable Mean S.D.Theoretical range Actual range1.Age diversity0.780.080.00–1.000.72–0.912.Tenure diversity0.650.150.00–1.000.59–0.713.Experience diversity0.510.110.00–1.000.00–1.00cation diversity0.560.090.00–1.000.00–1.005.MIS sophistication 3.610.22 1.00–5.00 1.00–5.006.Cost-based strategic performance 2.910.44 1.00–5.00 1.56–4.007.Flexibility-based strategic performance 3.050.47 1.00–5.00 2.00–4.20indicate perfect managerial homogeneity(functional or educa-tional).Higher scores on this index indicate higher diversity on functional background between members of the TMT.We mea-sured TMT diversity as a construct formed by the following four variables:age,tenure,education and experience diversity.The reli-ability and validity analyses showed that all items were loading higher in this construct.Since members in every TMT have different demographical characteristics,we computed inter-rater reliabil-ity coefficient for assessing the appropriateness of aggregation of individual members’characteristics to a team level.All coeffi-cients computed were above0.70,which indicates good agreement among judgments made by the team members(cf.James,Demaree and Wolf,1984).Strategic performance focused on cost andflexibility was measured with a nine-item instrument,based on the works by Govindarajan (1988)and Gupta and Govindarajan(1984).We adapted the instru-ment to the Spanish context,thus respondents were asked to indicate the extent to which the following dimensionsfit their per-sonal situation:decentralization of responsibility,programs of cost reduction and cooperation with others units or departments inside the hospital and others institutions.The factor analysis revealed two factors:flexibility-based strategic performance(explaining 31.24%of variance)and cost-based strategic performance(explain-ing24.98%of variance).The Cronbach-alphas were of0.71and0.76 respectively,exceeding the recommended minimum level(Nunally, 1978).We included a control variable:hospital size,which was mea-sured by the number of beds(Madorrán&Val Pardo,2005).The test for potential non-response bias involved comparing survey respondents to the original mailing list and comparing early and late respondents(Pedhazur&Pedhazur,1991).Chi-square tests and independent-samples t-tests did not reveal any sign of non-response bias3.4.ResultsThe hypotheses were analyzed using the Partial Least Squares technique(PLS),which is a second-generation statistical tech-nique for the estimation of path models involving latent constructs indirectly measured by several indicators(Chin,1998).Different from covariance-based structural models(e.g.LISREL,EQS),PLS explains variance and resembles ordinary least squares regression, with regard to output and assumptions(Chin,Marcolin,&Newsted, 2003).As such,PLS allows smaller sample sizes than covariance-based models.PLS does not report on thefit of the whole model (Yoo&Alavi,2001;Chin et al.,2003),and thus overcomes some of the theoretical and estimation problems associated with the use of covariance-based models.The path coefficients in the PLS struc-tural model are interpretable asˇ-statistics from ordinary least 3The result of the Chi-square test for the size of the original mailing list and surveyrespondents was 2=4.729(p=0.152).The result of the Chi-square test for the size comparing early and late respondents was 2=1.921(p=0.336).Table2Correlations from PLS model(n=92).12341.MIS sophistication 1.0002.TMT diversity0.152 1.0003.Cost-based strategicperformance0.188a0.209b 1.0004.Flexibility-based strategicperformance0.304c0.257c0.412c 1.000a Significant at0.1level(two tailed).b Significant at0.05level(two tailed).c Significant at0.01level(two tailed).Table3Results from PLS analysis(path coefficients,n=92).From ToCost-based strategicperformanceFlexibility-based strategicperformanceMIS sophistication0.192a0.271cTMT diversity0.1580.233bTMT diversity×MISsophistication0.1690.226bR20.2110.258a Significant at0.1level(two tailed).b Significant at0.05level(two tailed).c Significant at0.01level(two tailed).squares regression,and are comparable with principal component analysis as regards the measurement model.Table1shows the descriptives of the variables and Table2shows the correlation anal-ysis.The PLS analysis confirms the reliability and unidimensionality of the variables,with general loadings of manifest variables on latent variables exceeding0.60.We also assessed for discrimi-nant validity of the measurement model by calculating the Average Variance Extracted(AVE)and comparing this with the squared cor-relations between constructs.Results showed that discriminant validity was satisfactory because the AVE’s were higher than the correlations in all cases(Yoo&Alavi,2001;Chin et al.,2003).Fig.2displays the PLS model tested.Table3contains the detailed output statistics of the analysis of the path coefficients in the struc-tural model and reports on the significance of the standardizedˇs that resulted from this analysis,based on a bootstrapping procedure that used500samples with replacement.This table also reports the R-squared statistic for the dependent variable4.Consistent with expectations,Table3shows support for H1, since the path coefficient between sophisticated MIS and strate-gic performance focused onflexibility is positive and significant (p=0.001).Table3also shows a positive but marginally significant path coefficient(p=0.092)between sophisticated MIS and strate-gic performance focused on cost reduction.Thus,results in Table34The control variable size did not reveal any significant path with MIS sophisti-cation,TMT diversity,or strategic performances.108 D.Naranjo-Gil /International Journal of Information Management 29(2009)104–110Fig.2.PLS model:sophisticated MIS,TMT diversity,strategic performances.show support for H2since the path coefficient between sophisti-cated MIS and strategic performance focused on flexibility is higher that the path coefficient between sophisticated MIS and strategic performance focused on cost reduction.Regarding the role of TMT diversity on the relationship between sophisticated MIS and strategic performances,results in Table 3provide support for the moderating effect of TMT diversity on the relationship between sophisticated MIS and strategic performance focused on flexibility.In this case the path coefficient of the interac-tion term was positive and significant.Summarizing,support was found for hypothesis 3a .However,Table 3shows no support for hypothesis 3b ,which posed a moderating effect of TMT diversity on the relationship between sophisticated MIS and strategic perfor-mance focused on cost reduction.In this case,the path coefficient of the interaction term was positive but not significant.We cal-culated the explicative power of the interaction model,through comparison of the R 2for the significant interaction model with the R 2for the main effects model (without the interaction term).The difference between the squared multiple correlations is used to assess the overall effect size f 2for the interaction (Chin et al.,2003,p.211)5.Results show that the interaction construct has an effect size f of 0.21,which is between a medium and large effect.Thus,the results suggest a good fit of the data to the moderation model.To gain a better understanding of the shape of the interac-tion we found between sophisticated MIS and TMT diversity,the relationship between these two variables was also assessed using a two-way ANOVA.Sophisticated MIS was split on the basis of the median scores to create two groups:high sophisticated MIS (above median)and traditional or low sophisticated MIS (below median).TMT diversity was also split at the median to create two groups:TMT heterogeneity (above median)and TMT homo-geneity (below median)6.The mean scores for flexibility-based5f 2=(R 2interaction model −R 2main model)/(1−R 2main model).Interaction effect sizes are small if 0.02,medium if 0.15,and large if 0.35.6Since ANOVA assumes equality of variance between groups,previously we checked the variance using the Levene test.The significance value ofTable 4ANOVA results:mean flexibility-based performance scores (n =92).TMT heterogeneityTMT homogeneity High sophisticated MIS 3.24n =24 2.91n =29Low sophisticated MIS2.95n =213.16n =18strategic performance shown in Table 4indicate that performance is highest when sophisticated MIS is matched with TMT diver-sity.That is,performance is highest when sophisticated MIS is high and TMT diversity is also high,and when sophisticated MIS and TMT diversity are both low.The results of the ANOVA pro-vide general support that these differences are indeed due to the interactive effect of sophisticated MIS and TMT diversity 7(also see Fig.3).To add some intuitive appeal to the results and extend the PLS findings,we assessed a model relating the four characteristics of TMT diversity (age,tenure,experience and education diversity)directly to strategic performance focused on flexibility and cost.Table 5shows that education diversity and experience diversity are positively related to strategic performance based on both flex-ibility and cost reduction.However,results in Table 5shows that age and tenure diversity are not related to strategic performance focused on flexibility and cost reduction.These results are in line with some findings from previous studies (Carpenter et al.,2004;Wiersema &Bantel,1992).Finkelstein and Hambrick (1996)argued that occupational TMT diversity (e.g.experience and education),rather than temporal TMT diversity (e.g.age and tenure)has a stronger influence on innovativeness and firms’long-term perfor-mance.Wiersema and Bantel (1992)also concluded that age and tenure diversity are less important than experience and educa-tion diversity in capturing the underlying constructs of diversity of information.the Levene statistic was 0.177(higher than 0.05),showing homogeneity of variance.7The two-way interaction was significant (F =7.01,p <0.05).。

Management Information SystemIt is the MIS(Management Information System) that we constantly say that the management information system , and is living to emphasize the administration , and emphasizes that it changes into more and more significantly and more and more is universalized in the contemporary community of message . MIS is a fresh branch of learning, and it leaped over several territories, and for instance administers scientific knowledge, system science, operational research, statistic along with calculating machine scientific knowledge. Is living on these the branches of learning base, and takes shape that the message is gathered and the process means, thereby take shape the system that the crossbar mingles.1. The Management Information System Summary20 centuries, in the wake of the flourishing development of whole world economy, numerous economists propose the fresh administration theory one by one. Xi Men propose the administration and was dependent on idea to message and decision of strategic importance in the 50’s 20 centuries. The dimension of simultaneous stage is admitted issuing cybernetics, and he thinks that the administration is a control procedure. In 1958, Ger. write the lid: “ the administration shall obtain without delay with the lower cost and exact message, completes the better control ”. This particular period, the calculating machine starts being used accountancy work. The data handling term has risen.In 1970, Walter T.Kennevan give administration that has raised the only a short while ago information system term to get off a definition: “ either the cover of the book shape with the discount, is living appropriately time to director, staff member along with the outside world personnel staff supplies the past and now and message that internal forecasting the approaching relevant business reaches such environment, in order to assist they make a strategic decision”. Is living in this definition to emphasize, yet does not emphasize using the pattern, and mention the calculating machine application in the way of the message support decision of strategic importance.In 1985, admonishing information system originator, title Buddhist nun Su Da university administration professor Gordon B.Davis give the management information system relatively integrated definition, in immediate future “ administer the information system is one use calculating machine software and hardware resources along with data bank man - the engine system. It be able to supply message support business either organization operation, administration or the decision making function”. Comprehensive directions of this definition management information system target and meritorious service capacity and component, but also make known the management information system to be living the level that attains at that time.1.1 The Developing History of MISThe management information system is living the most primarily phase is counting the system, the substance which researched is the regular pattern on face between the incremental data, it what may separate into the data being mutually related and more not being mutually relatedseries, afterwards act as the data conversion to message.The second stage is the data are replaced the system, and it is that the SABRE that the Amer ican airline company put up to in the 50’s 20 centuries subscribes to book the bank note system that such type stands for. It possess 1008 bank note booking spots, and may access 600000 traveler keep the minutes and 27000 flight segments record. Its operation is comparatively more complex, and is living whatever one “spot ”wholly to check whether to be the free place up some one flight numbers. Yet through approximately attending school up to say, it is only a data and replaces the system, for instance it can not let know you with the bank note the selling velocity now when the bank note shall be sell through, thereby takes remedying the step. As a result it also is administer information system rudimentary phase.The third phase is the status reports system, and it may separate into manufacture state speech and service state and make known and research the systems such as status reports and so on. Its type stands for the production control system that is the IBM corporation to the for instance manufacture state speech system. As is known to all, the calculating machine corporation that the IBM corporation is the largest on the world, in 1964 it given birth to middle-sized calculating machine IBM360 and causes the calculating machine level lift a step, yet form that the manufacture administration work. Yet enormously complicatedly dissolve moreover, the calculating machine overtakes 15000 difference components once more, in addition the plant of IBM extends all over the American various places to every one components once more like works an element, and the order of difference possess difference components and the difference element, and have to point out that what element what plant what installation gives birth to, hence not merely giving birth to complexly, fitting, installation and transportation wholly fully complex. Have to there be a manufacture status reports system that takes the calculating machine in order to guarantee being underway successfully of manufacture along with else segment as the base. Hence the same ages IBM establish the systematic AAS of well-developed administration it be able to carry on 450 professional work operations. In 1968, the corporation establishes the communal once more and manufactures information system CMIS and runs and succeeds very much, the past needs 15 weeks work, that system merely may be completed in the way of 3 weeks. It is the data handling system that the status reports system still possess one kind of shape , and that it is used for handles the everyday professional work to make known with manufacture , and stress rests with by the handwork task automation , and lifts the effectiveness with saves the labor power . The data handling system ordinarily can not supply decision of strategic importance message.Last phase is the support systems make a strategic decision, and it is the information system being used for supplementary making a strategic decision. That system may program and the analysis scheme, and goes over key and the error solve a problem. Its proper better person-machine dialogue means, may with not particularly the personnel staff who have an intimate knowledge of the calculating machine hold conversation. It ordinarily consists of some pattern so as to come into being decision of strategic importance message, yet emphasizecomprehensive administration meritorious service capacity.1.2 The Application of Management Information SystemThe management information system is used to the most base work, like dump report form, calculation pay and occurrences in human tubes and so on, and then developing up business financial affairs administrations and inventory control and so on individual event operational control , this pertains to the electron data handling ( EDP Data Processing ) system . When establish the business data bank, thereby possess the calculating machine electric network to attain data sharing queen , the slave system concept is start off , when the implementation the situation as a whole is made program and the design information system ,attained the administration information system phase . In the wake of calculating machine technique progress and the demand adjust the system of people lift further, people emphasize more furthermore administer the information system phase. Progress and people in the wake of the calculating machine technique lift at the demand adjust the system further, people emphasize more furthermore to administer the information system whether back business higher level to lead makes a strategic decision this meritorious service capacity, still more lay special emphasis on the gathering to the external message of business and integrated data storehouse, model library , means storehouse and else artificial intelligence means whether directly to decision of strategic importance person , this is the support system ( DDS ) mission making a strategic decision.There is the part application that few business start MIS inner place the limit of the world at the early days of being living in the 70’s 20 centuries. Up at the moment, MIS is living, and there be the appropriate popularization rate in every state nation in world, and nearly covered that every profession reaches every department.1.3 The Direction of MIS DevelopmentClose 20 curtains; external grand duke takes charge of having arisen3 kinds of alternations:A. Paying special attention to the administration being emphasized to establishing MIS’s system, and causing the administration technique head for the ageing.B. The message is the decision of strategic importance foundation, and MIS supplies the message service in the interest of director at all times.C. Director causes such management program getting in touch with together with the concrete professional work maneuver by means of MIS. not merely big-and-middle-sized business universally establish MIS some small-size business also not exceptions of self, universally establish the communal data network, like the electronic mail and electron data exchange and so on, MIS supplied the well support environment to the ap plication of Intranet’s technique to speedily developing of INTERNET especially in the past few years in the interest of the business.Through international technique development tendency is see, in the 90’s 20 centuries had arisen some kinds of brand-new administration technique.1. Business Processes Rebuild (BPR)A business should value correctly time and produce quality, manufacturing cost and technicalservice and so on several section administrations, grip at the moment organization and the process compose once more,andcompletes that meritorious service capacity integrationist, operation processization and organization form fluctuation.2. Intelligentization Decision Support System (IDSS)The intelligentization decision of strategic importance support system was sufficiently consider demand and the work distinguishing feature of business higher level personnel staff.3. Lean Production (LP)Application give birth to on time, comprehensive quality control and parallel project that picked amount is given birth to and so on the technique, the utmost product design cutting down and production cycle, raise produce quality and cuts down the reproduced goods to reserve, and is living in the manufacture promote corps essence, in order to meet the demand that client continuously changes.4. Agile Manufacture (AM)One kind of business administration pattern that possess the vision, such distinguishing feature is workers and staff members’ quality is high, and the organization simplifies and the multi-purpose group effectiveness GAO message loading is agile and answers client requires swiftly.2.The Effect To The Business Administration of MIS DevelopmentThe effect to the business administration of the management information system development is administered the change to business and business administration of information system development and come into being and is coming into being the far-reaching effect with. Decision of strategic importance, particularly strategic decision-making may be assisted by the administration information system, and its good or bad directly affects living and the development up the business. The MIS is impeding the orientation development that the administration means one another unites through quality and ration. This express to utilize the administration in the calculation with the different mathematical model the problem in the quantitative analysis business.The past administer that the problem is difficult to test, but MIS may unite the administration necessaries, and supply the sufficient data, and simulates to produce the term in the interest of the administration.In the wake of the development of MIS, much business sit up the decentralized message concentration to establish the information system ministry of directly under director, and the chief of information system ministry is ordinarily in the interest of assistant manager’s grade. After the authority of business is centralized up high-quality administration personnel staff’s hand, as if causing much sections office work decrease, hence someone prophesy, middle layer management shall vanish. In reality, the reappearance phase employed layer management among the information system queen not merely not to decrease, on the contrary there being the increase a bit. This is for, although the middle layer management personnel staff getting off exonerate out through loaded down with trivial details daily routine, yet needs them to analyses researchingwork in the way of even more energy, lift further admonishing the decision of strategic importance level. In the wake of the development of MIS, the business continuously adds to the demand of high technique a talented person, but the scarce thing of capability shall be washed out gradually. This compels people by means of study and cultivating, and continuously lifts individual’s quality. In the wake of the news dispatch and electric network and file transmission system development, business staff member is on duty in many being living incomparably either the home. Having caused that corporation save the expenses enormously, the work efficiency obviously moves upward American Rank Zeros corporation the office system on the net, in the interest of the creativity of raise office personnel staff was produced the advantageous term.At the moment many countries are fermenting one kind of more well-developed manufacturing industry strategy, and become quickly manufacturing the business. It completely on the basis of the user requirement organization design together with manufacture, may carry on the large-scale cooperation in the interest of identical produce by means of the business that the flow was shifted the distinct districts, and by means of the once more programming to the machinery with to the resources and the reorganization of personnel staff , constituted a fresh affrication system, and causes that manufacturing cost together with lot nearly have nothing to do with. Quickly manufacturing the business establishes a whole completely new strategy dependence relation against consumer, and is able to arouse the structure of production once more revolution.The management information system is towards the self-adoption and Self-learning orientation development, the decision procedure of imitation man who is be able to be better. Some entrepreneurs of the west vainly hope that consummate MIS is encircles the magic drug to govern the business all kinds of diseases; Yet also someone says, and what it is too many is dependent on the defeat that MIS be able to cause on the administration. It is adaptable each other to comprehend the effect to the business of MIS, and is favor of us to be living in development and the research work, and causes the business organization and administer the better development against MIS of system and administration means , and establish more valid MIS.管理信息系统管理信息系统就是我们常说的MIS(Management Information System),它立足于强调管理，强调信息社会中信息变得越来越重要。

外文原文Management Information SystemsIntroduction To MISWhat is "Management Information Systems (MIS)"? Field Began in Early 80s. MIS bridges the gap between end-users and technical staffs (e.g. programmers). Consider the three key words (management, information, & systems) that have significant implications.Management: Managing resources that include people, machinery (technology and computers), money, and time, etc. You have to consider three managerial factors together in MIS: effectiveness, efficiency and profitability.Effectiveness–how well a firm is pursuing a goal or objective of its business; for instance, providing quality product/service can be a business goal that is usually stated in a firm's mission statement; Management by objective (MBO), etc.Efficiency–best use of resources, a synonym ['sinənim] is productivity = output divided by input. Productivity is measured in general by a ratio of OUTPUT to INPUT. Here, output indicates revenue, market share, etc., while input indicates labor, raw materials, administrative costs, operations costs, and IT related costs.Profitability - The empirical[em'pirikəl] studies（实证研究）in the IS literature have reported that on the contrary to the management's belief, there exists no significant difference in the profitability between before and after the new IS implementation. In other words, the new IS does not make significant profitability increase. In general, the bottom line in any business is the profitability. If it does not enhance the profitability, then what is a point to go through all the trouble to develop/implement a new IS? Using IT is not the perfect solution for every business situation. Whenever a new IT or information systems (IS) are implemented, additional costs incur. They can be costs related to hardware, software, training, maintenance, etc. Therefore, the cost-benefit analysis should be conducted prior to a new systems implementation.Information：Information relates to the computer; refers to knowledge. Data are a source for the information. If the data are processed in a meaningful way, they become "information." Here, IT can contribute. Information can be extracted easily through IT (e.g. computer) if data are properly processed. Therefore, the second word in M.I.S. indicates IT or computer. Of course, information can be obtained by a primitive way such as manual sorting by a clerk. Using IT definitely outperform any other means in history, in terms of processing data.Systems：If a nice system is made, it is self-running which leads to reducing the people necessary to the business process. An approach systematically doing business systems comes from systems theory that stresses the importance of systems approach to problem solving and a structured way to control and adjust automatically. Computer programmers and software engineers/developers realized it was only way to reduce a possibility of encountering errors later in the systems development process. When you construct a new/better system for the current business operations/decision-making process, you don't want to make a computer program based on the current business way. Instead, you develop a new model after serious analysis of the current system, so later can save resource in terms of time and money by avoiding a possible mistake/error. Therefore, business process reengineering (BPR) is unthinkable without a sound understanding of systems theory/concepts.MIS is a field of science that studies on (1) how better we can manage technologies (2) how better we can design information systems, in order to enhance a firm's effectiveness, efficiency and profitability. MIS is a new subject in the last ten to fifteen years. The idea is still being researched since the concept is being evolved. A teacher's bias has a large impact on this type of subject.Classification of Specialties in MIS•Systems Planning; • Systems Development; •Systems Review and Enhancement; • Special Computer Applications Systems Planning - facilities planning, distributed processing systems, systems organization, management and staff development and training, and application of new technologies.Systems Development - feasibility study and cost benefit analysis, detailed specifications of system development, equipment selection and configuration, software procurement / technical supervision of programming, implementation assistance, documentation and user training.Systems Review and Enhancement - reevaluation of information processing requirements, complete information system productivity audits, hard-ware/software performance evaluation and fine tuning, assessment and improvement of application program efficiency, staff productivity, data processing operations, studies of testing procedures, environment, security and reliability.Special Computer Applications - production planning and scheduling, inventory control, resource allocation, transportation and distribution logistics, personnel planning and administration, project management/control, information retrieval and analysis, process control, scientific and engineering applications.Approach to MIS DesignAll modern organizations are characterized by the need for management information. However this need is met, from the simplest verbal reporting system to the most sophisticated computerized system, certain basic principles must beobserved if the information provided is to contribute to effective management. Management information must be timely, accurate and in a format that lends itself to decision making. The cost of obtaining it must not exceed its value in the decision making process.RMC believes that an information system must be designed to take account of the nature of the client's business, the structure of the organization and the managerial styles of the system users. Data to be processed should be captured once only - and preferably by those who originate it and are most familiar with it. This means that the information system must be geared by operators with minimal system training, and must facilitate input error detection and correction. Our goals in information system design are to provide maximum flexibility and growth capacity for the system while minimizing operating costs and implementation disruptions.System Performance AuditOnce established, an information system must be audited periodically to ensure that it is performing all the tasks required of it as efficiently and effectively as possible. Growth of the organization, increased volume of business, changes in the business environment, technological changes and newly conceived information requirements all place increased demands on existing information systems and often cause them to be modified or extended on an ad hoc basis. Our staff has the specialized skills and experience to perform a thorough audit on existing information systems and to recommend changes in design, equipment, software and procedures, to bring them up-to-date and to peak performance. An information system audit should be performed every three years, or when processing capacity appears to be strained and upgrading of facilities is being considered.Stages in the development of Management Information SystemsOrganizations have always had some kinds of management information systems, even if it was not recognized as such. Developments in the use of the new technology have gone through several stages.Stage 1: EDP. When computers were first introduced into organizations, they were used mainly to process data for a few business functions –usually accounting and billing. Computers were located in electronic data processing (EDP) departments, because of the specialized skills needed to operate the extensive and complex system.Stage 2: MIS. The growth of EDP departments spurred managers to focus more on planning their organiz ations’ information systems. As the EDP departments’ function expanded beyond routine processing of masses of standardized data, they began to be called management information system (MIS) departments. MIS uses data created mainly in the EDP departments and it can be developed only when there already exists such department. It does not make any changes in these data. MIS could obtain information from internal and external sources.Stage 3: DDS. Later on, when remote terminals were introduced, more than one department began to use the same system. At this stage the MIS has grown beyond a data processing role and included the provision of a number of decision support systems(DSSs). While the MIS controls routine operations using data processing methods, the DSS is seen as supporting decisions on “less routine issues” and solving “semi-structured” problems.Stage 4: ARTIFICIAL INTELLIGENCE and EXPERT SYSTEMS. One of the fastest growing areas of information technology, artificial intelligence uses the computer to simulate some of the characteristics of human thought. The term artificial intelligence(AI) means the simulation of human thought process in order to select the best mode of behavior, e. g. taking a decision or responding to a situation. Expert systems are a major application of AI. They act like a human “expert” in analysing unstructured situations. Expert systems are also called “knowledge-based” systems since they are built on a framework of known facts and responses to situations. It is believed that we are moving rapidly from industrial-based society to an information-based one. The application of computer technology to management information and decision support systems has certainly had an effect on how managers perform their tasks and on how organizations behave.The changing nature of organizations and workThe development of the IT offers enormous opportunities to improve the way in which organizations work. However, the introduction of a new technology does not lead automatically to improved performance. It might result in greater job insecurity and might cause fear from the process of adapting the workforce to the requirements and pressures of implementation of modern MIS. On the other hand, MIS made it easier to store, process and access information than ever before. Employment might be also affected through the changes in demand for more and broader skills and for fewer unskilled people. More than ever, organizations seamed to be dependent on highly skilled and motivated workforce.To benefit from their investment in new IT and MIS, firms probably need to address not only the technological environment within they operate, but also their relationships with suppliers, customers and other trading partners.As the global economy and online communities collide, more and more organizations have come to depend on collaborative technology to support distributed teamwork. Flexible working arrangements, such as part-time work, working at or from home, self-employment and flexible employment contracts might become increasingly prominent. The implementation of modern MIS might improve the firm’s competitiveness and make them more flexible, more profitable through decreasing the cost and creating possibilities for accessing new markets and customers.。

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。

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。