The Industrial Internet of things (IIoT) is the use of intelligent sensors and actuators to improve manufacturing and industrial processes. IIoT, also known as industrial internet or Industry 4.0, uses the power of intelligent machines and real-time analytics to leverage the data that machines have produced in industrial environments for years. The basic philosophy behind IIoT is to make business decisions faster and more accurately, except that intelligent machines are better at capturing and analyzing data in real time than humans.
Interconnected sensors and actuators enable companies to support Business Intelligence (BI) efforts, as well as find inefficiencies and solutions to problems more quickly, saving time and money. Yesil has great potential for Quality Control, sustainable green practices, supply chain traceability and overall supply chain efficiency with IIoT, especially in production. In an industrial environment, IIoT is key to processes such as predictive maintenance (PDM),Advanced Field Service, energy management, and asset tracking.
How does IIoT work?
IIoT is a network of intelligent devices connected to form systems that monitor, collect, share, and analyze data. The Industrial IoT ecosystem consists of:
Intelligent entities that can detect, transmit and store information about themselves;
Public and / or private data communication infrastructure,
Analysis and applications that generate business information from raw data
Edge devices and smart assets transmit information directly to the data communication infrastructure, for example by converting information about how a particular piece of machine works into action. This information can then be used to optimize predictive maintenance or business processes.
Benefits Of IIoT
One of the biggest advantages that IIoT provides to businesses is predictive maintenance. This means using real-time data from IIoT systems to predict defects in machines. For example, before an error occurs or before the machine crashes, the incoming data is analyzed and allows you to take action in advance.
Another common benefit is improved field service. IIoT technologies help field service technicians identify important problems in customer equipment before they become major problems, allowing problems to be solved before customers notice them.
Asset tracking is another IIoT capability. Suppliers, manufacturers, and customers can use asset management systems to monitor the position and status of products throughout the supply chain. If products are damaged or there is a risk of damage, the system sends immediate alerts to stakeholders, giving them the chance to take action to rectify the situation.
IIoT also increases customer satisfaction. When products connect to the Internet of things, the manufacturer can analyze data on how customers use their products, thus leading to manufacturers and product designers adapting future IoT devices and creating customer-centric products.
IIoT also improves facility management. Because the production equipment is sensitive to wear, wear, and also to certain conditions inside the factory, it can monitor vibrations with the sensor, temperature, and other factors that may cause less work outside optimal conditions.
Difference between IIoT and IoT
Internet of Things (IoT) and Industrial Internet of things (IIoT),cloud platforms, sensors, connectivity, machine-to-machine communication, and data analysis, including many technology even though they are used for different purposes.
IoT applications connect devices in many sectors, including agriculture, healthcare, business, consumer, and utilities, as well as government and cities. IoT devices are smart devices that don't usually create emergencies if something goes wrong.
IIoT applications connect machines and devices in sectors such as oil, gas, utilities and manufacturing. System failures can lead to system failures in IIoT applications, deployments, downtime, high-risk situations, and even vital situations. The difference between IIoT applications and IoT applications is related to improving efficiency, improving health or safety against the user-centered nature of IoT.
IIoT applications and examples
ABB, an energy and automation company, uses intelligent robots ' real-world IIoT application, interconnected sensors, to perform repairs before parts break and monitor the maintenance needs of its robots.
Likewise, commercial jetliner maker Airbus has made the transition to a new factory system it calls the "factory of the future," a digital manufacturing initiative to streamline operations and increase production. Airbus has integrated sensors into machines and vehicles in the workshop and equipped them with wearable technology aimed at reducing errors and improving workplace safety, for example using industrial smart glasses.
Another robot manufacturer, Fanuc, uses robotic sensors and cloud-based data analysis to predict possible failures of components in its robots. This technology allows the facility manager to plan maintenance at appropriate times, reduce costs and avoid possible downtime.
Magna Steyr, an Austrian automotive manufacturer, uses IIoT to track products, including vehicles and vehicle parts, and automatically order more stock when needed. The company also uses a system they call Bluetooth-enhanced "smart packaging" to track products in its warehouses.
Providers Of IIoT Applications
There are a number of providers with IIoT platforms, some of which we have listed for you;
ABB Ability, an energy and automation company,
IoT system from Cisco, a networking company,
Field by industrial automation equipment supplier Fanuc,
Predix from GE, an energy management company,
Connected Performance Services of software-industrial company Honeywell,
Connyun by Kuka, industrial robot manufacturer (created in partnership with Infosys, an IT consulting firm);
Wonderware by Schneider Electric is an energy management company, and
MindSphere is from Siemens, an industrial manufacturing company.
Future of IIoT
Bain & Company estimates that industrial IoT applications will be more than $ 300 billion by 2020, double the consumer IoT segment ($150 billion).
Similarly, IDC research, investing in IIoT 2018, the industry's first three production management (189 billion USD) and reported that is focused on asset management; load tracking and fleet management, focusing on transportation ($85 billion); and public services with a focus on smart grids (73 billion),consumer spending will reach 62 billion IoT.
More optimistically, Accenture expects IIoT to add $ 14.2 trillion to the economy over the same period and grow at a compound annual growth rate (CAGR) of 7.3% by 2020.