Differences Between IIoT and IoT
When distinguishing between IoT and industrial IoT, it's critical to remember that IIoT is a subset of IoT technology that explicitly refers to technologies utilized for industrial activities. Many of the same principles and functions are involved, however, there are some differences between IIoT and standard IoT applications.
Consider the following differences between the IIoT and IoT:
● Market focus:
The Internet of Things (IoT) covers a wide range of industries and users. IoT technology may be used by consumers as well as professionals in fields such as healthcare, business, and government. Because IoT is used in so many various sectors and by so many different people, it tends to focus on more generic applications.
IIoT technology, on the other hand, is only employed in industrial settings by professionals in an industrial field. Power plants, oil and gas refineries, and manufacturing facilities are the places where IIoT is being used.
Users of IIoT and IoT technology tend to have significantly different objectives. The goal of IoT implementation is typically to boost efficiency, improve health and safety, and offer better experiences. IIoT is typically focused on the first two aims and is less user-centric. IIoT is not used in everyday life by ordinary people, but rather as part of an industrial process.
● End devices:
Because IIoT and IoT have distinct objectives and aims, they frequently require separate devices. IIoT devices are intended to give users data about their machinery by integrating with current machinery rather than operating alone. Controllers and Programmable Logic Controllers are examples of these gadgets. IoT devices are often commonplace items that can be used independently, such as smart thermostats, wearables, and smart assistants. IoT smart sensors and other gadgets used to improve infrastructure can be found on occasion.
● Failure risk:
Because IoT devices and technology are employed on a small scale, the risk of failure is quite minimal. In general, IoT devices aren't employed for critical procedures that, if they fail, could be life-threatening or harmful. When compared to IoT, IIoT devices and technology failure can be more harmful, as IIoT technology is network-connected and can generate life-threatening scenarios when a piece of heavy machinery breaks.
● Development requirements:
When corporations create new IoT devices, they typically attempt to improve the convenience of a user's daily life. Because consumer desire for ease of use is great, the focus of development is increasingly on boosting comfort. IIoT development often focuses on creating new gadgets that can improve the efficiency of clients' operations. Because industrial facilities must optimize their operations to be competitive, IIoT developers employ data metrics to create gadgets that help businesses decrease costs and enhance productivity.
● Compatibility with previous systems:
IoT devices do not need to be compatible with legacy systems in general. Because these devices frequently function independently, device designers are not required to make them backward compatible. IIoT devices, on the other hand, must be interoperable with a variety of legacy devices and machinery used in industrial operations. Because these factories frequently feature equipment that lacks digital interfaces or capability, many IIoT devices must assist older equipment in providing digital data and accepting IT system commands.
● Environmental requirements:
IoT devices must normally perform in everyday situations, with designs that are built to resist regular temperatures and other environmental stresses. IIoT devices must be more durable and reliable because they are used in tougher situations such as energy plants, factories, and oil refineries. As a result, makers of IIoT devices often design their products to endure dampness, radio interference, and severe temperatures in order to offer consistent results.