developing an e-manufacturing (imes)

Developing an e-Manufacturing (iMES) Developing an e-Manufacturing (iMES) University of Michigan- Ann Arbor 1020 H. H. Dow Building, 2350 Hayward Street Ann Arbor, MI48109 University of Wisconsin-Milwaukee 9100 N. Swan Rd Milwaukee, WI 53224 www.imscenter.net Objectives Future Work For more information, contact State-of-the-Art Accomplishments The objective of the project is developing an e-Manufacturing (iMES: Intelligent Manufacturing Execution Systems) model for more stable and reliable MES functional support with faster implementation capability. The model can support all types of manufacturing industry with primary focus on the automotive, electric and electronics manufacturing and the process industry as well. • Sep. 2003, Approved International IMS project (Developing an e-Manufacturing Systems (iMES) by MOICE (Ministry Of Industry Commerce and Energy), Korean Government • Oct. 2003, Firmed iMES project consortium (KIMM, Postech & ACS in Korea) • Jul. 2004, Signed MOU with University of Wisconsin-Milwaukee (USA) • Jul 2004, Signed MOU with Waseda University (Japan) Approach MES template •Use of Industry-based business process management tool & Performance metric tool. S.K. Cha, Cofounder, ACS R&D Center, Seoul, Korea (82-2-6292-6800, [email protected]) • Integration with e-Maintenance • Integration with APS (Application Planning & Control) Algorithm • Integration with RF-ID & Ubiquitous sensor network [1] MES infrastructure Layers •Presentation infrastructure Service : Object- and XML- based message exchange functions which are independent from both any hardware and software. •Application service : iMES application software consisted of “Industry MES template”, definition of business process data and real-time data •Control infrastructure service : real time data communication between device controllers. [2] MES functions •Manufacturing Process modeler •KPI Configurator •ERP Configurator •DBMS Configurator •Application interface configurator •Intelligent data collection systems company a company b company c company d company e sub-process (or activity) nodes n 1 n 3 n 6 n 7 n 8 n 11 n 13 n 1 4 n 15 product application 1 product application 2 product application 3 product application 6 product application m Organization stream process stream

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Developing an e-Manufacturing (iMES). process stream. sub-process (or activity) nodes. n 1. n 3. n 6. n 7. n 8. n 11. n 13. n 1 4. n 15. product. application 1. Organization stream. product. application 2. product. application 3. product. application 6. product. application m. - PowerPoint PPT Presentation

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Page 1: Developing an e-Manufacturing (iMES)

Developing an e-Manufacturing (iMES)Developing an e-Manufacturing (iMES)

University of Michigan- Ann Arbor1020 H. H. Dow Building, 2350 Hayward StreetAnn Arbor, MI48109

University of Wisconsin-Milwaukee9100 N. Swan Rd Milwaukee, WI 53224

www.imscenter.net

Objectives

Future Work

For more information, contact

State-of-the-Art

Accomplishments The objective of the project is developing an e-Manufacturing

(iMES: Intelligent Manufacturing Execution Systems) model for more stable and reliable MES functional support with faster implementation capability. The model can support all types of manufacturing industry with primary focus on the automotive, electric and electronics manufacturing and the process industry as well.

• Sep. 2003, Approved International IMS project (Developing an e-Manufacturing Systems (iMES) by MOICE (Ministry Of Industry Commerce and Energy), Korean Government

• Oct. 2003, Firmed iMES project consortium (KIMM, Postech & ACS in Korea) • Jul. 2004, Signed MOU with University of Wisconsin-

Milwaukee (USA)• Jul 2004, Signed MOU with Waseda University (Japan)

ApproachMES template

• Use of Industry-based business process management tool & Performance metric tool.

S.K. Cha, Cofounder, ACS R&D Center, Seoul, Korea (82-2-6292-6800, [email protected])

• Integration with e-Maintenance• Integration with APS (Application Planning & Control)

Algorithm• Integration with RF-ID & Ubiquitous sensor network

[1] MES infrastructure Layers• Presentation infrastructure Service: Object- and XML- based message exchange functions which are independent from both any hardware and software.

• Application service: iMES application software consisted of “Industry MES template”, definition of business process data and real-time data

• Control infrastructure service: real time data communication between device controllers.

[2] MES functions• Manufacturing Process modeler• KPI Configurator• ERP Configurator• DBMS Configurator• Application interface configurator• Intelligent data collection systems

company a company b company c company d company e

sub-process (or activity) nodes

n 1 n 3 n 6 n 7 n 8 n 11 n 13 n 1 4 n 15product

application 1

product

application 2

product

application 3

product

application 6

product

application m