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The OpenFog Reference Architecture and the IEEE 1934 regular


What you require to know about OpenFog’s Reference Architecture and the IEEE 1934 common, released in June 2018 by the OpenFog Consortium and the IEEE Specifications Association: what, why, when – and where by you discover more details.

Fog computing, which is created as a cloud-like infrastructure which is nearer to the endpoints of networks as utilised in, among the some others, IoT and IIoT or Sector 4. deployments has its formal regular.

The OpenFog Reference Architecture for fog computing, made by the OpenFog Consortium (a.k.a. “OpenFog”) has been adopted as an official conventional by the IEEE (Institute of Electrical and Electronics Engineers), ensuing in normal IEEE 1934.

The OpenFog reference architecture and now the IEEE 1934 standard adopting it

As a reminder: fog computing is an extension of and complement to cloud computing, forming a distributed network natural environment in-between the edge of a network and the cloud (or info center). It is frequently made use of interchangeably with edge computing but strictly speaking is not the exact same. Fog computing is sometimes seen as a way to put into action edge computing.

The street in direction of standardization: from OpenFog Consortium to OpenFog Reference Architecture and IEEE 1934

Leaving aside these details: fog standardization efforts have started rather some time back as formerly documented. Close June 2018 the OpenFog Consortium and the IEEE Requirements Association announced that IEEE typical 1934 was finalized, based mostly on the pointed out OpenFog Reference Architecture.

This implies that firms now have a standardized blueprint and framework to continue on or start out acquiring fog computing apps and alternatives. At the similar time the conventional will speed up innovation and current market progress in IoT, 5G and AI, the OpenFog Consortium states.

The new regular supports numerous sector verticals and software domains and is developed to help companies and purposes to be dispersed nearer to the knowledge-making sources and/or the information-consuming buyers (IEEE)

The OpenFog Consortium begun doing work on its open normal for fog computing since it was established finish 2015 with the intention to “accelerate the deployment of fog systems as a result of the growth of an open up architecture, main technologies which includes the capabilities of dispersed computing, networking, and storage as properly as the leadership required to notice the comprehensive opportunity of IoT”.

In April 2016 the consortium declared an affiliation with the IEEE (which joined the board, alongside with GE Digital and Schneider Electric powered). In that identical month OpenFog also started collaborating with the OPC Basis in the scope of interoperability in industrial automation, Industrie 4., IoT in producing and other areas where the OPC Foundation is energetic in (building management and automation, clever electricity etc.).

IoT system, IoT gateway and other IoT element/option suppliers commenced providing fog support and attributes, as did the a few big community cloud suppliers, Amazon, Google and Microsoft, who also have their platforms.

The OpenFog Reference Architecture (OpenFog RA), which is at the main of the IEEE 1934 regular, was offered in February 2017 as “a universal technical framework designed to permit the information-intense needs of the Internet of Things, 5G and augmented intelligence certification applications” .

As a consortium, we developed the OpenFog Reference Architecture with the intention that it would serve as the framework for a standards development organization
“As a consortium, we created the OpenFog Reference Architecture with the intention that it would provide as the framework for a criteria progress organization” – Helder Antunes, chairman of the OpenFog Consortium and Senior Director Cisco (photo source and courtesy Helder Antunes, LinkedIn)

Cisco’s Helder Antunes, chairman of the consortium in that announcement: “Just as TCP/IP grew to become the regular and universal framework that enabled the Web to just take off, members of OpenFog have created a standard and universal framework to enable interoperability for 5G, IoT and AI applications”.

You can download the OpenFog RA 162-page document below. It also has an overview of use instances for fog computing, giving you an concept of wherever fog tends to make sense in apply. Places of software include things like clever cities, sensible vitality, good transportation, clever health care and smart manufacturing.

Or as Helder Antunes put it: “While fog computing is starting off to be rolled out in smart cities, related automobiles, drones and a lot more, it needs a widespread, interoperable system to turbocharge the large chance in digital transformation.  The new OpenFog Reference Architecture is an vital huge phase in that route.”

IEEE 1934 – IEEE Standard for adoption of OpenFog Reference Architecture for fog computing

In our short article on fog standardization we have pointed out how in October 2017 a new IEEE workgroup was shaped to create fog computing and networking criteria. A to start with draft, the “IEEE Draft Common for Adoption of OpenFog Reference Architecture for Fog Computing” or P1934/D1., unapproved draft, was unveiled in February 2018.

As stated in our report on fog computing there…