What is the most important difference between IoT and IIOT?

What is the most important difference between IoT and IIOT?

What is the most important difference between IoT and IIOT?


With regard to the business possibilities, the Internet of Things (IoT) and the Industrial IoT (IIoT) are regarded as the most discussed issues. They both considered important technologies for a wide range of consumer and industrial applications. According to the estimations made by some leading market research companies, as part of IoT or IIoT schemes, more than 20 billion end-point devices will be installed globally by 2020.

The IoT and the IIoT should not be regarded as just some sensors or machinery; rather, they form a communication-based eco-system in which various networked devices such as cameras, smart thermostats, power meters, counters, sales rates, and industrial sensors interact with cloud-based procedures. The result is then displayed on a computer screen or a smartphone and is used to optimize the operation of an industrial process, which in turn leads to distinctive operational and economic advantages. Applications of IoT / IIoT ecosystems include checking the accessibility of products in stores, the remote operation of home appliances, warnings of problems in the operation of devices, and more.

This article aims to highlight the most important distinctions between IoT and IIoT This post also provides the reader with the chance to learn about these ecosystems.

Important differences

Those who are less familiar with IoT and IIoT often co-relate these comparable acronyms. However, these are two parallel technologies with the same normal protocols, i.e. while they cover two different areas, the ideas behind them are often strongly the same or borrowed from each other. They may use the same interface, agility, and intelligence but they have their own operating procedures, principles, customers, and goals. Below describes some of the main differences between IoT and IIoT.

  1. Utility—Consumption vs. Output

IoT helps to optimize power consumption, promote personal comfort and control costs, while IIoT is aimed at providing any process or unit with the maximum effectiveness and smooth workflow.

  1. Applications—Personal Use vs. Production

IoT basically targets the automation of household daily procedures, while IIoT’s primary goal is to monitor companies’ production and environmental parameters.

  1. Impact—Revolution vs. Evolution

While the technology behind IoT is not new, but its implementation in the consumer and commercial markets is revolutionary, IIoT, which is an enhancement of IoT for industrial applications, allows companies to create a digital layer in their ecosystem.

  1. Life Support—In-house vs. Vendor Regulated

An IoT solution provider serves your IoT system and devices, whereas, Industrial IoT solutions need an in-house capacity to maintain a quick-resolution life cycle. This system involves replacement sensors, firmware upgrades, gateways, and server setup to prevent loss of operational capability.

  1. Automation—Limited vs. No Human Intervention

IoT solutions use programmable learning skills in system design to integrate control and automation into the gateway along with new manufacturing technologies. The IIoT architecture is rather made to fulfill low latency requirements in handling errors or malfunctions and should be able to re-route to the backup scheme separately.

  1. Reliability—Flexible vs. Low Latency

IoT-enabled Industrial equipment must be able to effectively counter extreme temperature, volume pressure, harmonic movements, and other environments in remote places. They should be able to resist heavy duty cycles within tolerance and function reliably for years.

  1. Privacy—Advanced vs. Robust

From encrypted and flexible system architectures, specific chipsets, threat detection to manage authentication, IIoT solutions involve several safety measures for system management.

  1. Interoperability—Nodal vs. Multidimensional

IioT is developing with open standards that give way to disruptive technologies, low-cost innovation, and ease of use. The aim is to integrate a cooperative environment in sync with various protocols, data sets, ERP systems, and existing legacy operating technologies (OTs), including SCADA, M2M and others.

  1. Scalability—Limited vs. Large-Scale

The extensive IIoT network of controllers, robots, machines and other utility-based applications in the organization provides thousands of fresh sensors and implements non-IoT equipment. Such network scales planning, information collection, analysis, interoperability, workflow integration, decision-making and integration into manufacturing and business-oriented systems.


A popular perception of the IoT and the IioT is that the idea is the same. However, having understood the difference mentioned above, we can easily deduce that both these technologies are meant to play disparate roles. The objectives may be the same for IoT and IioT, but there is a huge difference in design, engineering and the environment in which these technologies are designed.

Functionality is crucial, but it is not the only determinant of whether an IoT solution is prepared or not. IoT and IioT solutions may integrate all of those parameters but vary in terms of what is being implemented and how.

Industrial processes impose on IoT solutions onerous demands. Product managers must take account of these extra design and engineering demands. They need to know the particular use cases, as well as the contexts in which the alternatives will be put.

Buyers assessing IoT alternatives for industrial applications must ask themselves some tough questions. Today’s IIoT solutions are emerging and are developing in a very vibrant industry. Vendors providing IIoT solutions may come from neighboring markets with alternatives that may not be robust enough for all industrial applications.

As the world is moving towards the deployment of tens of billions of end-point devices embedded with IoT and IioT ecosystems, computer security is becoming an issue for the world’s population and business and industrial activities. To mitigate these hazards, it is essential to define root causes and not just to cope with patching and isolating issues. Also, you need to construct teams of inner champions and followers with the correct skills, each in its own sector.

We all hope for enormous IoT / IIoT deployments in the future, as this is useful for customers, suppliers, and innovation as well. Anyone considering developing a fresh IoT / IIoT ecosystem will concentrate on true requirements and values and correctly built cloud-based architecture.

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