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Obviously, an enterprise will not implement integration on the basis of its technical merits alone. A CIM architecture must provide the necessary business benefits to justify change and investment. The integration of information systems must support interaction between business functions and the automation of business processes. This is a key function if corporate goals, such as improved responsiveness to customer demands and reduced operating cost, are to be met. A CIM architecture must provide the means by which an entire enterprise can reduce the cycle times of business processes required for order processing, custom offerings, and new products. It must also reduce the impact of changes in business objectives and those business processes.
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Bucker, D. W., 10 Principles to JIT Advancement, Manufacturing Systems, 55, March 1988. Campbell, J., The RS-232 Solution, Sybex, Inc., Alameda, Ca., 1984. Clark, K. E., Cell Control, The Missing Link to Factory Integration, International Industry Conference Proceedings, Toronto, 641 646, May 1989. Datapro Research Corporation, How U.S. Manufacturing Can Thrive, Management and Planning Industry Briefs, 39 51, March 1987. Groover, M. P., and E. W. Zimmer, Jr., CAD/CAM: Computer Aided Design and Manufacturing, Prentice-Hall, Englewood Cliffs, N.J., 1984. IBM Corp., Introducing Advanced Manufacturing Applications, IBM, Atlanta, Ga., 1985. APICS: Tweaks and Distributed Systems Are the Main Focus MRP No Longer Looks to the Future for Finite Capacity Scheduling, Managing Automation, 31 36, January 1992. Manufacturing Studies Board, National Research Council, Toward a New Era in U.S. Manufacturing: The Need for a National Vision, National Academy Press, Washington, D.C., 1986. Orlicky, J., Material Requirements Planning, McGraw-Hill, New York, 1985.
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Schonberger, R. J., Frugal Manufacturing, Harvard Business Review, 95 100, September October 1987. Skinner, W., Manufacturing: The Formidable Competitive Weapon, Wiley, New York, 1985. Support for The Manufacturing Floor, Manufacturing Engineering, 29 30, March 1989. Vollmann, T. E., W. L. Berry, and D. C. Whyback, Manufacturing Planning and Control Systems, Richard D. Irwin, Homewood, Ill., 1984.
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6.1 Identification of Manufactured Components
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In an automated manufacturing operation, one should be able to monitor the identification of moving parts. The most common means of automatic identification is bar-code technology, but other approaches offer advantages under certain conditions.
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Bar-Code Identification Systems
The universal product code (UPC) used in retail stores is a standard 12-digit code. Five of the digits represent the manufacturer and five the item being scanned. The first digit identifies the type of number system being decoded (a standard supermarket item, for example) and the second is a parity digit to determine the correctness of the reading. The first six digits are represented by code in an alternating pattern of light and dark bars. Figure 6.1 shows two encodings of the binary string 100111000. In both cases, the minimum printed width is the same. The delta code requires nine such widths (the number of bits), while the width code requires 13 such widths (if a wide element is twice the width of the narrow element). Different bar widths allow for many character combinations. The remaining six digits are formed by dark alternating with light bars reversing the sequence of the first six digits. This allows backward scanning detection (Fig. 6.2).
Six
Module boundaries
FIGURE 6.1 Encoding of the binary string 10011100 by delta code (top) and width code (bottom).
FIGURE 6.2 Speci cations of the UPC symbol. The readable characters are normally printed in OCR-B font.
A bar-code reader can handle several different bar-code standards, decoding the stripes without knowing in advance the particular standard. The military standard, code 1189, specifies the type of coding to be used by the Department of Defense, which is a modification of code 39. Code 39 consists of 44 characters, including the letters A through Z. Because of its alphanumeric capabilities, code 39 is very effective for manufacturing applications. Code 39 is structured as
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