Under the hat of the Internet of Things fall technologies and applications that provide for the network connection of objects and devices other than the PC, which exchange data generally autonomously and independently from a direct human command.
Connected objects typically have components that fall into the following categories:
By combining these components, complex systems are created, such as home automation or automation systems, new functions and services can be added to existing devices (household appliances and diagnostic devices that can be activated and monitored remotely, for example) or invent new product categories: smartphones, smartphones tv, smartwatch, a fitness tracker.
Table of Contents
In addition to the primary benefit offered to the consumer, the use of the smart device for its specific purpose, the adoption of IoT technologies can allow the manufacturing company to obtain new valuable information to be exploited in the first person, to be transferred to the consumer as value. Added after the purchase of the product, or even monetised through the provision of new services.
Some examples of these secondary benefits are:
In the enterprise, the IoT is used in numerous innovative use cases that in some instances are re-propositions of consumer technologies on a larger scale. Still, in other cases, they are specific applications of the business sector of the company in question. Some of the most prominent examples are:
In addition to providing new functionalities to improve the process, the acquisition of historical data and their analysis, perhaps supported by artificial intelligence systems , creates value that can be used to obtain competitive advantages, but also to introduce new products and services and get to radically transform the company’s core business, for example moving from being a manufacturer of a device to providing its functionality as a service , both to business customers and directly to consumers.
In the implementation of IoT technologies, it provides an infrastructure that can be articulated on multiple networks and systems. Each part hides critical issues that must be evaluated to avoid security risks, network efficiency and uncontrolled growth of the data collected and the consequent processing and storage costs.
Typically, an infrastructure for the Internet of Things applications consists of the following parts:
Sensors translate physical parameter measurements first into electrical signals and then into digital information.
Among the parameters that can be measured, the most common are:
Actuators, on the other hand, make it possible to translate a command of electrical or digital origin into action in the physical world. Whether it’s opening a tap, starting an engine or turning on a light bulb, it’s always a switch or a solenoid valve that can be controlled with an electrical impulse.
The sensors can be directly connected to the IP / internet network, or communicate with a central collector using different wired or wireless systems and protocols. The choice between one or the other depends on various factors, including:
As we stand on the brink of technological advancements, the realm of electronics design and… Read More
The Fairplay club App is a seamless extension of its online platform, offering the same… Read More
Computer data has become essential to the proper functioning of all businesses and data loss… Read More
Affiliate marketing is a popular method to monetize a website. It is used particularly frequently… Read More
Pinterest is a visual search engine and social media platform where users can discover and… Read More
Discover the importance of email archiving and learn why it is essential. From legal compliance… Read More