What is IoT?

Internet of things g33624234d 1920

The Internet of Things (IoT) refers to physical devices which are connected to the internet to send and receive data and instructions. The popularity of the so-called IoT-devices is increasing every year, with more than 30 billion connected devices expected by 2023.

The Internet of Things (IoT) refers to physical devices which are connected to the internet to send and receive data and instructions. The popularity of the so-called IoT-devices is increasing every year, with more than 30 billion connected devices expected by 2023.

The Internet of Things (IoT) refers to physical devices which are connected to the internet to send and receive data and instructions. The popularity of the so-called IoT-devices is increasing every year, with more than 30 billion connected devices expected by 2023. In this article we tell you everything you need to know about IoT, and we’ll take a look at the most prevalent IoT-applications.

New IoT-devices are continuously being developed for almost every industry: the medical sector, production industry, entertainment business, home appliances, automotive, … But, before we get into the different IoT-applications, let’s take a look at the meaning and origins of the Internet of Things.

What is IoT?

The Internet of Things is a network of interrelated, interconnected objects that are able to autonomously collect and transfer data over a wireless network. The ‘object’ can be referred to as an IoT-device, which is equipped with sensors and intelligence, hence the name ‘smart devices’. IoT-devices are everywhere: medical devices, household appliances, smart watches, connected cars, smartphones, smart lighting, smart security systems, connected machines in production facilities, …

What is a smart device?

Many smart devices that exist today are traditional devices to which intelligence has been added so that they can exchange data over the internet.

Basically, to be considered a smart device, an object must consist of different components:

  • The physical component = mechanical + electronics
  • Smart Component = uP, sensors, data storage, control system, software, OS = (artificial) intelligence, algorithms, logic ...
  • A connectivity component = wireless, wired (can be 1-1, 1-M, M-M)

The capabilities of smart, connected products can be grouped into four areas: monitoring, control, optimization, and autonomy. Each builds on the preceding one; to have control capability, for example, a product must have monitoring capability.

How IoT started

The roots of IoT can be tracked down to a cola-vending machine at Carnegie Mellon University (CMU), back in 1970. Because of the high consumption rate of Coca-Cola bottles, students and staff regularly stood in front of an empty vending machine. As a solution, some members of the computer science department created microswitches for the machine to sense how many bottles where available. Using the self-developed software, people could ping the computer for information about the availability of bottles. Because CMU was part of ARPANET, other universities could access information about the vending machine at CMU.

It is considered as an early example of an IoT-device. Yet, the term ‘Internet of Things’ was only used for the first time by technology-expert Kevin Ashton in 1999. And still, it took several more years, with the adoption of RFID, Wi-Fi and 4G, before IoT emerged as a wide-spread technology.

IoT in industry

Industry has widely adopted IoT as a means to increase efficiency and boost productivity by automating manufacturing processes, monitoring performance and providing accurate real-time data. In industry, IoT is often mentioned in the same breath as ‘Industry 4.0’ and ‘Industrial Internet of Things’ (IIoT).

Industry 4.0 is characterized by 3 elements:

  • Smart machines that are equipped with sensors and software for data tracking and data logging
  • Robust computer systems to store and process data
  • Data analytics systems that provide valuable information for process improvements

Companies looking for a competitive advantage need look no further than the opportunities offered by IoT. The benefits extend across all business domains, from manufacturing, maintenance and supplier logistics to employee safety and product delivery. With the convergence of various technologies such as AI, quantum computing, blockchain and 5G, IoT will come into its own. Bringing us to a ubiquitously connected intelligent world.

Valuable IoT-applications

Next to the Industrial Internet of Thing, there are many other IoT-applications that create value and efficiency in our daily lives.

  • Smart cities: IoT can help to create smarter and more efficient cities in terms of energy, transportation, parking and more. Smart traffic light that can adapt to actual traffic conditions or be set remotely to give priority to emergency vehicles. Energy grids that can be optimized. And parking apps that sent real-time information about available parking spots to drivers looking for a place to park.
  • Healthcare: With smart medical devices patients and doctors will meet less frequently in person. Remote health care will gradually become established. E.g. IoT can be used to monitor and reporting a person's heart rate, blood pressure, and other health markers. Sensors can be integrated in wearables such as smart socks or smart t-shirts. And it can offer general assistance and advice during physical training.
  • Smart agriculture: Connected trackers can send the location of animals as they graze in open land. Smart irrigation systems with humidity sensors can create just the right amount of irrigation to reduce water consumption and optimize crop growth. Vintners use smart sensors to monitor the health and sugar levels of grapes.
  • Supply chains: IoT is widely used to track and trace products across the supply chain, from the production line, over logistics, up to final delivery.
  • Smart (and autonomous) vehicles: Car manufacturers are developing technologies and sensors for capturing information about road conditions and preventing potential accidents. In the future autonomous vehicles may drive our streets using IoT-technology.

Latest insights & stories

Ada cosmetics HERO HEADER 202402 1440x930px min

How sustainability and hygiene put even more beauty into travel

Gentle to nature, gentle to the skin. High-quality hotel amenities contribute to well-being and play an important role in creating memorable moments while travelling. Away from home, guests expect not only carefully chosen brands and designs, but also products that are sustainable and safe. ADA Cosmetics meets these demands with its expertise and proven dispenser systems, such as the squeeze dispenser SmartCare, as well as a new pump dispenser that sets out to revolutionise the dispenser market.

Schermafbeelding 2024 02 12 om 15 52 40

Extreme Networks: a textbook example of how to make the most of your partnership

Extreme Networks is playing a crucial role at Living Tomorrow by sharing their vision of the networking of the future through an interactive demo in the Zone City. This demo makes their vision of the future tangible for visitors, giving them a clear idea of the possibilities of future networks.

P1222095
Smart City & Industry

Q8 Innovation and Digitalisation Training

We are excited to share the latest developments in our collaboration with Q8 as they continue their exciting transformative journey. As part of its ongoing transformation program, Q8 International is dedicated to enhancing its core competencies in innovation, digitalisation, and agility.

Their primary goal was to instil new capabilities in these crucial areas, fostering a common language among team members and promoting collaboration across different departments and operating units. In collaboration with Tomorrowlab the Q8 Innovation and Digitalisation Training was born.

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Drag
0%