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This is a list of communication protocols used for the automation of processes (industrial or otherwise), such as for building automation, power-system automation, automatic meter reading, and vehicular automation.
The Common Industrial Protocol (CIP) is an industrial protocol for industrial automation applications. It is supported by ODVA.. Previously known as Control and Information Protocol, [1] CIP encompasses a comprehensive suite of messages and services for the collection of manufacturing automation applications – control, safety, synchronization, motion, configuration and information.
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:
The International Business Communication Standards (IBCS) are practical proposals for designing business communication, available for free use under a Creative Commons license (CC BY-SA). IBCS are used to optimize reports, presentations, and dashboards in terms of their conceptual design, visual perception, and semantic notation.
IRC is designed for group communication in discussion forums, called channels, [1] but also allows one-on-one communication via private messages [2] as well as chat and data transfer, [3] including file sharing. [4] Internet Relay Chat is implemented as an application layer protocol to facilitate
Automation in construction is the combination of methods, processes, and systems that allow for greater machine autonomy in construction activities. Construction automation may have multiple goals, including but not limited to, reducing jobsite injuries, decreasing activity completion times, and assisting with quality control and quality assurance.
A communication system with a message protocol and models for the communication stack in each node (capable of hosting distributed applications (KNX Common Kernel); and; Models for the realization of these elements when developing actual devices to be mounted and linked in an installation.
Figure 1 depicts an example of an I/O automaton for a process in an asynchronous message-passing distributed system. In this setting, process P i communicates with other processes by using a message passing system. Its output actions are of the form send(m) i,j, which represents process P i sending a message with contents m to process P j.