The coining of the term in 1999, the internet of things (IoT) has transformed from a mere vision to a palpable reality. This can be attributed to the extensive use of the Internet Protocol (IP), the rise of ubiquitous computing, and the continued advancement of data analytics, among other drivers of development. By 2020, it is estimated that there will be 20.4 billion devices connected to the IoT. Despite its continuing expansion, however, the IoT remains to some degree an obscure concept, something that’s often referred to in abstract terms even as it provides manifest benefits.
The IoT can be described as an extension of the internet and other network connections to different sensors and devices — or “things” — affording even simple objects, such as lightbulbs, locks, and vents, a higher degree of computing and analytical capabilities.
Interoperability is one of the key aspects of the IoT that contribute to its growing popularity. Connected or “smart” devices — as “things” in the IoT are often called — have the ability to gather and share data from their environments with other devices and networks. Through the analysis and processing of the data, devices can perform their functions with little or no need for human interaction.
Given the ever-increasing number of connected devices, the IoT continues its path of evolution, adding different layers to the data that is already being shared and processed, and giving rise to sophisticated algorithms that result in improved levels of automation. And because of the variety of “things” that can be connected to it, the IoT has enabled diverse applications for individual users and entire industries alike.
Sensors. Data is first collected from the environment for the IoT system to begin processing. It is collected by sensors in devices that can measure observable occurrences or changes in the environment. The kind of data being measured by the device depends on its function: It can be a person’s pulse in the case of a fitness tracker or the distance of the nearest object in that of an autonomous vehicle.
Connection and identification. The data must be communicated from the device to the rest of the IoT system, be it to a computer or to another device. And for this communication to have any meaning, a device must have a unique identifiable presence on the internet, accomplished through its own IP address.
Actuators. Most IoT devices are capable of doing their primary functions without physical interaction with their users. IoT devices should be able to take action based on data from their sensors and the subsequent feedback from the network. A smart lightbulb, for example, can turn on upon the command of its user, even when the user is miles away. In the same manner, a valve in a smart factory can automatically open or close according to data gathered by its sensors along the production line.
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