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GBZ43339-2023: Automation systems and integration - Use case of capability profiles for cooperation between manufacturing software units
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Automation systems and integration - Use case of capability profiles for cooperation between manufacturing software units
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Basic data | Standard ID | GB/Z 43339-2023 (GB/Z43339-2023) | | Description (Translated English) | Automation systems and integration - Use case of capability profiles for cooperation between manufacturing software units | | Sector / Industry | National Standard | | Classification of Chinese Standard | J07 | | Classification of International Standard | 25.040.40 | | Word Count Estimation | 61,679 | | Date of Issue | 2023-11-27 | | Date of Implementation | 2024-06-01 | | Issuing agency(ies) | State Administration for Market Regulation, China National Standardization Administration | GBZ43339-2023: Automation systems and integration - Use case of capability profiles for cooperation between manufacturing software units
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GB /Z 43339-2023: Specific application cases for interoperability between automation systems and integrated manufacturing software units
ICS 25:040:40
CCSJ07
National Standardization Guiding Technical Documents of the People's Republic of China
Automation systems and integration
Specific application cases for interoperability capabilities between manufacturing software units
(ISO /T R16161:2019,IDT)
Published on 2023-11-27
2024-06-01 Implementation
State Administration for Market Regulation
Released by the National Standardization Administration Committee
Table of contents
Preface III
Introduction IV
1 Scope 1
2 Normative references 1
3 Terms and Definitions 1
4 Abbreviations 2
5 Dialogue content between C subsystem and P subsystem 2
6 Procedures before starting the dialogue between C subsystem and P subsystem 3
6:1 Overview 3
6:2 The process of identifying dialogue partners using competency rules 3
6:3 Competence Specification 6
6:4 Capability-Specific Templates and Examples 6
7 Message definition between C subsystem and P subsystem 15
7:1 Message structure 15
7:2 Control messages 17
7:3 Execution messages 19
8 Communication protocol between C subsystem and P subsystem 25
8:1 Overview 25
8:2 Interface between C subsystem and P subsystem 25
8:3 Message communication in the dialogue between C subsystem and P subsystem 26
Appendix A (informative) Message definitions in JSON schema 28
Appendix B (Informative) Management 35
B:1 Production management system layer 35
B:2 Subsystem 35
B:3 Order example in request message 36
B:4 Collaboration of C subsystem, P subsystem and service provider 38
B:5 CP dialogue basic sequence diagram 39
Appendix C (Informative) Client-Implementer Model 43
Appendix D (Informative) Message Example 44
Appendix E (informative) Customized dialog state transition diagram example 48
E:1 Personalization of the dialogue between C subsystem and P subsystem 48
E:2 Additional messages 48
E:3 Message extensions defined in Appendix A 49
Appendix F (Informative) Solutions for handling dialog state transitions, messages and capability specifications51
F:1 Overview 51
F:2 Design strategies and implementation constraints51
F:3 Main functions of the adopter 51
Appendix G (informative) Verb mapping table between OAGiS and this document53
Reference 54
Foreword
This document complies with the provisions of GB/T 1:1-2020 "Standardization Work Guidelines Part 1: Structure and Drafting Rules of Standardization Documents"
Drafting:
This document is equivalent to ISO /T R16161:2019 "Specialized Application of Interoperability between Automation Systems and Integrated Manufacturing Software Units"
Case": The type of this document has been adjusted from ISO 's technical report to my country's national standardization guiding technical document:
Please note that some content in this document may be subject to patents: The publisher of this document assumes no responsibility for identifying patents:
This document is proposed by China Machinery Industry Federation:
This document is under the jurisdiction of the National Automation System and Integration Standardization Technical Committee (SAC/TC159):
This document was drafted by: Beijing Machinery Industry Automation Research Institute Co:, Ltd:, Jiangsu Changjiang Intelligent Manufacturing Research Institute Co:, Ltd:,
Beijing Institute of Technology, Jiangsu Meike Solar Technology Co:, Ltd:, Deep Blue Ocean Technology Co:, Ltd:, Tsinghua University, Ningbo Grau
Bo Intelligent Industry Co:, Ltd:, Changzhou Longxin Intelligent Equipment Co:, Ltd:, Zhejiang University, Guangdong Xinguang Intelligent System Co:, Ltd:, Yuyao Taisu
Automation Technology Co:, Ltd:, Tongji University, Shenzhen Xingfengyuan Mechanical and Electrical Co:, Ltd:, Hangzhou Yousheng Technology Co:, Ltd:, Shanghai Xuantian Engineering
Industrial Equipment Co:, Ltd:, Chongqing University, Shenzhen Qianhai Hard City Information Technology Co:, Ltd:, Zhejiang Haidman Intelligent Equipment Co:, Ltd:, Xiang
Yangmeilixin Technology Co:, Ltd:, Ningbo Zhongyi Intelligent Co:, Ltd:, Shenzhen Huaxin Information Technology Services Co:, Ltd:, Zhejiang Weixin
Daycare Automation Technology Co:, Ltd:, Hebei Huatong Technology Co:, Ltd:, Quzhou Xingchen Technology Co:, Ltd:
The main drafters of this document: Jiang Jiang, Yin Zuozhong, Pan Yanfei, Chai Senchun, Wei Jiancang, Su Hongye, Sun Jiexiang, Cui Lingguo, Huang Shuangxi,
Liu Xianhui, Wang Lei, Li Xiaobin, Wang Haidan, Wang Kai, Guo Dong, Nie Zilin, Qin Xiugong, Mo Tong, Zhao Yixun, Chen Jianping, Zhang Ruitao, Feng Lei, Chen Xingquan,
Zhang Wenbo, Mo Mingwei, Li Yue, Yang Zhen, Lan Yu, Lu Yanjun, Zhang Zhilei, Chen Yuanming, Li Liuqi, Jiang Changye, Wei Wei, Liu Jianjun, Zhai Ye, Wu Zhenyong,
Qiao Zhongyin, Liu Fuyang, Zheng Jing, Fang Yike:
Introduction
ISO 16100 is motivated by the industrial and economic environment, in particular:
a) Growth base for vendor-specific solutions;
b) User difficulties in applying the standard;
c) Need to transform into a modular system integration tool set;
d) Recognize that application software and the expertise in applying that software are assets to the business:
ISO 16100 is used to represent computer-understandable and human-readable capabilities specifications: Its goal is to provide a system-independent
An architecture or method of implementing a platform to represent a manufacturing software unit (MSU) in a manufacturing application software and its role in the entire manufacturing application life:
Abilities related to roles in the cycle: This can reduce production and information management costs for users and suppliers/suppliers of manufacturing applications:
This document describes the application of ISO 16100: Manufacturing Software Agent is a type of MSU that uses the capabilities specified in ISO 16100
Designed to achieve interoperability:
This document describes the messaging language and protocols by which software agents collaborate with each other to implement system functionality: Defined in the introduction to ISO 16100-3
When MSU capabilities are specified, agents have the ability to identify each other's manufacturing activities and identifiable information: A software agent that requires manufacturing activities is called
Consumers and agents that provide manufacturing activities are called implementers: Consumers describe request messages for manufacturing activities through a message language: Implementer's Guide
Report messages describing the results of manufacturing activities through message language:
The Agent Communication Language (ACL) proposed by the Foundation for Intelligent Physical Agents (FIPA) is a message language exchanged with multiple agents, defined
The message sequence protocol is a framework for interaction protocols that are applied to agents and identify them to use the ontologies specified by FIPA: In comparison
In the protocol and message language described in this document, a software agent as a consumer and a software agent as an implementer work in a one-to-one manner:
interactions, and each software agent is identified using the capability specifications described in ISO 16100-3: Therefore, the ACLs and descriptions in this document
The protocol and message languages are different:
Automation systems and integration
Specific application cases for interoperability capabilities between manufacturing software units
1 Scope
This document describes the approach to software engineering using ISO 16100 by exchanging Manufacturing Software Unit (MSU) capability specifications:
methods of interoperability between managers: The specifications exchanged between agents describe the manufacturing capabilities requested by the requester and to be completed by the implementer:
2 Normative reference documents
This document has no normative references:
3 Terms and definitions
The following terms and definitions apply to this document:
The database of terms used in standardization maintained by ISO and IEC is at the following URL:
ISO online browsing platform: https://www:iso:org/obp:
3:1
consumercustomer
Requester for manufacturing activities:
3:2
C-subsystemC-subsystem
The manufacturing software unit requesting the manufacturing activity:
3:3
performer
Provider of manufacturing activities:
3:4
P-subsystemP-subsystem
A manufacturing software unit that provides manufacturing activities:
3:5
Software that implements capability-specific interfaces:
[Source: ISO 16100-3:2005,3:1:2]
3:6
service providerserviceprovider
The entity plays the role of a capability-specific service provider (3:5) and is responsible for preparing and providing a pair of consumers (3:1) and implementers (3:3):
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