Transactions of Materials and Heat Treatment

Title：Model of digital forging factory based on standard ISA95

Authors： Sun Yong Zhao Junxin Dai Heping Jiang Peng

Unit： Beijing Research Institution of Mechanical and Electrical Technology Hubei Tri-ring Forging Co. Ltd.

KeyWords： standard ISA95 digital factory integrated decision model forging

ClassificationCode：TP391

year,vol(issue):pagenumber：2016,41(5):8-13

Abstract：

For the complexity of decision in forging industry and the fierce competition in factories, a new mechanism was urgently needed to coordinate and optimize the information flow among all levels. Implementation difficulties of information system with integrated decision mechanism were analyzed. For standardization and information flow between different levels and combining practical production requirement of forging factories, a factory model based on standard ANSI/ISA95 was presented including hierarchy model, functional data flow model and object model. The information interoperability, collaboration and reusability were improved and the overall decision mechanism was optimized by the the above models， which provided a basic framework for integrated digital forging factory.

Funds：

2015年智能制造专项项目“汽车复杂锻件智能化制造新模式”

孙勇（1971-），男，博士研究生，研究员

Reference：

［1］张国军，黄刚. 数字化工厂技术的应用现状与趋势[J]. 航空制造技术,2013，(8):34-37.Zhang G J, Huang G. Digital factory: Its application situation and trend[J]. Aeronautical Manufacturing Technology，2013,(8):34-37.
［2］Edrisi M, Elisabet C G, Marta M B, et al. Scheduling and control decision-making under an integrated information environment[J]. Computers and Chemical Engineering, 2011, (35):774-786.
［3］Varma V A, Reklaitis G V, Blau G E, et al. Enterprise-wide modeling & optimization-an overview of emerging research challenges and opportunities[J]. Computers & Chemical Engineering, 2007, 31(5-6): 692-711.
［4］Grossmann I. Enterprise-wide optimization: A new frontier in process systems engineering[J]. AIChE Journal, 2005,51(7):1846-1857.
［5］Dobrev M, Gocheva D, Batcbkova I. An ontological approach for planning and scheduling in primary steel production[A]. 2008 4th International IEEE Conference Intelligent Systems [C].Varna,2008.
［6］李伟华，陈曦. 集成化管理与决策信息系统开发研究[J]. 计算机工程与设计, 1995,(6):19-24.Li W H, Chen X. The research and development of integrated management and decision making system[J]. Computer Engineering and Design, 1995,(6):19-24.
［7］Martin N, Hong-Mei C, Rick K, et al. Manufacturing execution systems: A vision for managing software development [J]. The Journal of Systems and Software, 2015, 101:59-68.
［8］ANSI/ISA-95.00.01-2000，Enterprise-Control system integration part I: Models and terminology[S].
［9］饶艳，陈德，周咨聪,等. 协同设计中基于SP95标准的产品信息模型研究[J]. 计算机集成制造系统, 2007,(13):1528-1533.Rao Y, Chen D, Zhou Z C, et al. Product information model based on SP95 standard in collaborative design[J]. Computer Integrated Manufacturing Systems, 2007,(13):1528-1533.
［10］ANSI/ISA-95.00.03-2005，Enterprise-Control system integration part 3: Activity models of manufacturing operations management[S].
［11］宋敏，王社伟. 基于ISA95的复杂产品装配执行系统建模及实现[J]. 制造业自动化，2013,(7):30-33.Song M, Wang S W. Modeling and implementation of complex product assembly execution system based on ISA95[J]. Manufacturing Automation, 2013,(7):30-33.

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