how to generate barcode in vb.net 2010 Managing Data in the CIM Environment in Software

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Managing Data in the CIM Environment
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The second building block of a CIM architecture incorporating sensors and control technology is data management. This includes how data are defined, how different data elements are related, where data are stored, and who has access to that data. Data management is particularly critical in today s industrial environment since many different databases, formats, and storage and access techniques are available. Standards are evolving. For example, Structured Query Language (SQL) provides a medium for relational database applications and for users to access a database. Unfortunately, a significant amount of data exists today in other database technologies that are not accessible by current standards. Data management defines and records the location of the data created and used by the enterprise s business functions. Data management also means enabling users to obtain the data needed without having to know where the data are located. Relationships among several data elements must be known if data are to be shared by users and applications. In addition, other data attributes are important in sharing data. These include the type of data (text, graphic, image), their stat (working, review, completed), and their source (person, application, or machine). In CIM with sensory architecture, data management can be accomplished through three individual storage functions: (1) the data repository, (2) the enterprise data storage, and (3) the local data files. Some of the key data management functions the repository, for example are already being implemented by the consolidated design file (CDF) established through the IBM Data Communication Service (DCS). The consolidated design file operates on a relational database and is built on SQL. One example of its use is as an engineering database to integrate CAD/CAM applications with the business needs of the engineering management function. This environment, IBM s DCS/ CDF, provides the following repository functions: Transforming data to a user-selected format Storing CAD/CAM data Adding attributes to CAD/CAM data Enabling users to query data and attributes DCS/CDF also provides communications functions to transfer data between the repository and CAD/CAM applications (Fig. 5.16).
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FIGURE 5.16
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Data Communication Service/consolidated design le (DCS/CDF).
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CIM Environment Presentation
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Presentation in the CIM environment means providing data to, and accepting data from, people and devices. Obviously, this data must assume appropriate data definitions and screen formats to be usable. Because today s industrial enterprise contains such a wide array of devices and information needs, it must have a consistent way to distribute and present information to people, terminals, workstations, machine tools, robots, sensors, bar-code readers, automated guided vehicles, and part storage and retrieval systems. The range of this information covers everything from simple messages between people to large data arrays for engineering design and applications (Fig. 5.17). It may originate from a CIM user in one functional area of the enterprise and be delivered to a CIM user or device in another area.
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FIGURE 5.17
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Presentation of data.
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In today s environments, presentation occurs on displays that utilize various technologies. Some are nonprogrammable terminals, some are programmable workstations, and some are uniquely implemented for each application. As a result, the same information is often treated differently by individual applications. For example, the same manufactured part may be referred to as a part number in a bill of material in production planning, as a drawing
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in engineering s CAD application, and as a routing in a paperless shop order from plant operations. As data are shared across the enterprise, they must be transformed into definitions and formats that support the need of individual users and applications. Applications must be able to access shared data, collect the required information, then format that information for delivery.
5.8.6 The Requirement for Integration
Communication, data management, and presentation each have their own set of technical requirements. In addition, before these three building blocks can be integrated, a CIM architecture must also address a number of enterprise-wide constraints. For example, a CIM architecture should be able to: Utilize standard platforms Integrate data Protect the installed base investment Work with heterogeneous systems Utilize industry-standard operator interfaces Reduce application support cost Provide a customizable solution Offer phased implementation Deliver selectable functions Improve the business process
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