Manufacturing Messaging Specification
Manufacturing Message Specification
Manufacturing Message Specification
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Manufacturing Message Specification
In today's world, Manufacturing Message Specification has acquired unexpected relevance. Its impact has been felt in every area of society, from politics to culture, technology and the economy. It is impossible to ignore its presence, since its effects can be seen in the daily lives of millions of people around the world. Therefore, it is imperative to delve into its implications and understand the role it plays today. This article aims to explore the different facets of Manufacturing Message Specification, analyzing its influence and its repercussions in different areas, in order to shed light on a phenomenon that is constantly evolving.
Manufacturing Message Specification (MMS) is an international standard (ISO 9506) dealing with messaging systems for transferring real time process data and supervisory control information between networked devices or computer applications. The standard is developed and maintained by the ISO Technical Committee 184 (TC184). MMS defines the following
- A set of standard objects which must exist in every device, on which operations like read, write, event signaling etc. can be executed. Virtual manufacturing device (VMD) is the main object and all other objects like variables, domains, journals, files etc. comes under VMD.
- A set of standard messages exchanged between a client and a server stations for the purpose of monitoring or controlling these objects.
- A set of encoding rules for mapping these messages to bits and bytes when transmitted.
MMS original communication stack
MMS was standardized in 1990 under two separate standards as
- ISO/IEC 9506-1 (2003): Industrial Automation systems - Manufacturing Message Specification - Part 1: Service Definition
- ISO/IEC 9506-2 (2003): Industrial Automation systems - Manufacturing Message Specification - Part 2: Protocol Specification
This version of MMS used seven layers of OSI network protocols as its communication stack:
| Application | Application Common Service Element (ACSE) - ISO 8649/8650 |
| Presentation | Connection Oriented Presentation - ISO 8822/8823
Abstract Syntax Notation (ASN) - ISO 8824/8825 |
| Session | Connection Oriented Session - ISO 8326/8327 |
| Transport | Connection Oriented Transport - ISO 8072/8073 |
| Network | Connectionless network - ISO 8348 |
| Link | MAC - ISO 8802-3
MAC - ISO 8802-4 |
| Physical | Ethernet
Token Ring |
MMS stack over TCP/IP
Because the Open Systems Interconnection protocols are challenging to implement, the original MMS stack never became popular. In 1999, Boeing created a new version of MMS using Internet protocols instead of the bottom four layers of the original stack plus RFC 1006 ("ISO Transport over TCP") in the transport layer. The top three layers use the same OSI protocols as before.
In terms of the seven-layer OSI model, the new MMS stack looks like this:
| Application | Application Common Service Element (ACSE) - ISO 8649/8650 |
| Presentation | Connection Oriented Presentation - ISO 8822/8823
Abstract Syntax Notation (ASN) - ISO 8824/8825 |
| Session | Connection Oriented Session - ISO 8326/8327 |
| Transport | ISO transport over TCP - RFC 1006
Transmission Control Protocol (TCP) - RFC 793 |
| Network | Internet Control Message Protocol (ICMP) - RFC 792
Internet Protocol (IP) - RFC 791 Address Resolution Protocol (ARP) - RFC 826 |
| Link | IP datagrams over Ethernet - RFC 894
MAC - ISO 8802-3 |
| Physical | Ethernet |
With the new stack, MMS has become a globally accepted standard.[citation needed]
External links
- MMS Protocol Details
- MMS Overview
- MMS V1 Abstract Syntax
- MMS Protocol Description
- MMS. Presentation by Prof. Dr. H. Kirrmann, ABB Research Center, Baden, Switzerland
