The industrial internet of things ( IIoT ) refers to the extension and use of the internet of things ( IoT ) in industrial sectors and applications. The IIoT encompasses industrial applications, including robotics, medical devices, and software-defined production processes.
The only difference between those two is their general usages. While IoT is most commonly used for consumer usage, IIoT is used for industrial purpose such as manufacturing, supply chain monitor and management system.
It is also the largest industry from an IoT spending (software, hardware, connectivity and services) perspective. In 2016, manufacturing operations alone accounted for an IoT spend of $102.5 billion on a total of $178 billion, all IoT use cases in manufacturing combined.
IIoT is a network of intelligent devices connected to form systems that monitor, collect, exchange and analyze data. Each industrial IoT ecosystem consists of: Intelligent assets that can sense, communicate and store information about themselves; Public and/or private data communications infrastructure.
The Internet of Things ( IoT ) describes the network of physical objects —“ things ”—that are embedded with sensors, software, and other technologies for the purpose of connecting and exchanging data with other devices and systems over the internet.
But the actual term “Internet of Things” was coined by Kevin Ashton in 1999 during his work at Procter&Gamble. Ashton who was working in supply chain optimization, wanted to attract senior management’s attention to a new exciting technology called RFID.
Disadvantages Three of the main concerns that accompany the Internet of Things are the breach of privacy, over-reliance on technology, and the loss of jobs. The privacy issues also leads to the question of who will control the Internet of Things? Another argument against IoT is the over-reliance on technology.
The future of IoT has the potential to be limitless. Advances to the industrial internet will be accelerated through increased network agility, integrated artificial intelligence (AI) and the capacity to deploy, automate, orchestrate and secure diverse use cases at hyperscale.
The three layers of IoT architecture It proposes three layers: Perception, Network, and Application. This is the physical layer of the architecture.
IoT devices can be used to monitor and control the mechanical, electrical and electronic systems used in various types of buildings (e.g., public and private, industrial, institutions, or residential) in home automation and building automation systems.
Internet of Things is a smart technology that helps all connected devices to update themselves according to changes in the surrounding environment and to be able to be adopted and work in any other strange environment with high accuracy.
The five industries leading the IoT revolution Manufacturing. IoT is “evolutionary,” according to Peter Middleton, a Gartner analyst focusing on IoT. Transportation. The transportation industry is also investing heavily in IoT. Utilities. Healthcare. Consumer electronics and cars.
“The four main parts of any IIoT system are intelligent assets, a data communications infrastructure, analytics and applications to interpret and act on the data, and people. Intelligent assets include machines or other assets enabled with sensors, processors, memory, and communications capability.
IoT allows us to collect reliable and safe real-time data and transform it into very useful information for businesses. This helps to reduce the consumption of resources to improve our efficiency and productivity.
At the annual exhibition organized by UBM, John Romkey introduces a toaster connected to the Internet. The toaster is considered to be the first IoT device. It was connected to the computer via a TCP/IP protocol.