DESIGN OF A DECENTRALIZED PRODUCTION MANAGEMENT-SYSTEM BASED ON AN OBJECT-ORIENTED ARCHITECTURE

被引:0
|
作者
ROHLOFF, M
机构
来源
IFIP TRANSACTIONS B-APPLICATIONS IN TECHNOLOGY | 1993年 / 13卷
关键词
D O I
暂无
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
Today's production planning and control systems are based on a centralized planning concept and architecture resulting in a limited ability to adapt to organizational structure and procedures. A twofold object oriented approach is undertaken for the redesign of production planning and control. To increase flexibility and adaptability of such systems this paper outlines in its first part a concept of a decentralized production planning and control. It is based on a distribution of production and operations management tasks to interacting autonomous organizational units, structuring manufacturing in an object oriented manner. Essential feature of each unit is the integration of planning, realization, and control tasks, planning being based on time frames. Secondly, it is shown how the concept can be realized by means of an object oriented information systems development. A generic information system is designed for the general properties of an organizational unit. Taking advantage of object oriented technology (e.g. inheritance, reuseability), it serves as a reference and building block for the design of local information systems each supporting an individual organizational unit. The generic Information system is customized to the required features of a specific organizational unit according to the level of planning and the organizational structure of the domain. The overall system is set up by a network of such customized local information systems.
引用
收藏
页码:585 / 597
页数:13
相关论文
共 50 条
  • [31] AN OBJECT-ORIENTED DESIGN SYSTEM SHELL
    DIEDERICH, J
    MILTON, J
    SIGPLAN NOTICES, 1987, 22 (12): : 61 - 77
  • [32] The Analysis and Design of the Object-oriented System
    Xin, Li
    PROCEEDINGS OF THE 2015 INTERNATIONAL CONFERENCE ON MATERIALS ENGINEERING AND INFORMATION TECHNOLOGY APPLICATIONS, 2015, 28 : 19 - 23
  • [33] Fuzzy object-oriented system design
    Pedrycz, W
    Sosnowski, ZA
    FUZZY SETS AND SYSTEMS, 1998, 99 (02) : 121 - 134
  • [34] Object-oriented design for assembly system
    ElGizawy, AS
    Thunga, M
    Angia, R
    CAD/CAM ROBOTICS AND FACTORIES OF THE FUTURE, 1996, : 914 - 921
  • [35] An idea for business management based on a plant object-oriented design
    Passarella, C
    SOLUTIONS FOR IMPROVING PRODUCTIVITY AND FLEXIBILITY, 1999, 393 : 223 - 232
  • [36] IMPLEMENTING A USER INTERFACE MANAGEMENT-SYSTEM FOR EXISTING APPLICATIONS USING AN OBJECT-ORIENTED DATABASE TOOL
    HARDWICK, M
    UEJIO, W
    SPOONER, D
    CZECHOWSKI, J
    LOHR, P
    SARACHAN, B
    SOFTWARE-PRACTICE & EXPERIENCE, 1991, 21 (02): : 167 - 185
  • [37] Analysis and design based on the educational management system adopting the object-oriented modeling technique
    Lu, Yuyang
    Yin, Zhihao
    Yang, Yong
    Yu, BenCheng
    INFORMATION TECHNOLOGY APPLICATIONS IN INDUSTRY II, PTS 1-4, 2013, 411-414 : 444 - 447
  • [38] AN OBJECT-ORIENTED, CAPABILITY-BASED ARCHITECTURE
    BROWNE, JC
    SMITH, T
    LECTURE NOTES IN COMPUTER SCIENCE, 1984, 163 : 22 - 38
  • [39] DOOM - A DECENTRALIZED OBJECT-ORIENTED MACHINE
    BRONNENBERG, WJHJ
    NIJMAN, L
    ODIJK, EAM
    VANTWIST, RAH
    IEEE MICRO, 1987, 7 (05) : 52 - 69
  • [40] An object-oriented architecture for extensible structural design software
    Clune, Rory
    Connor, Jerome J.
    Ochsendorf, John A.
    Kelliher, Denis
    COMPUTERS & STRUCTURES, 2012, 100 : 1 - 17