Digital transformation is nothing more than the use of new technologies to create new processes or improve existing ones to automate enterprise processes that, for example, support customer service.


Digital transformation is the integration of technology along with digital solutions. It is a requirement resulting from the cultural and technological changes happening before our eyes, the impact of which has been particularly evident in recent years. If every organization in every industry made fundamental changes, they could improve their operations and provide many benefits to their customers and bring their product or service to an even higher level.

Each organization’s digital transformation will be unique to the specific industry in which it operates, including IoT. However, there are also common traits and practices that are worth learning as you develop and operate in this area.

When looking at the digital product or service engineering industry, it is important to choose solutions so that the company can adapt to and thrive in the new business realities, causing as much market expansion as possible and gaining more and more customer trust.

Leading manufacturing industries, including digital engineering, are slowly introducing various digital information improvements. However, this is happening at different rates taking into account each individual’s individuality and personalized needs.

There are common practices that are proven to work in many sectors. They are more widely known as Industry 4.0.

One of the pillars of this concept is the Dynamization of Internet of Things technology, which has the possibility of developing new business solutions. The flexibility of the Internet of Things makes IoT applicable in many areas. The most popular is the cooperation of people and technology to increase work efficiency.

Industry 4.0 is designed to integrate people and digitally controlled machines with the Internet and information technologies. Materials produced or used in production can always be identified, and they also have the ability to communicate independently with each other, which is innovation.

This makes it possible to create products with higher productivity
Industry 4.0 technologies include such technology centers as:

  • Big Data Analytics
  • Internet of Things (IoT)
  • Cloud Computing
  • Artificial Intelligence (AI)
  • Cybersecurity
  • Augmented Reality (AR)
  • Virtual Reality (VR)
  • Autonomous Robots.

M2M communication refers to the exchange of information between machines without human intervention. It is a key component of Industry 4.0, as it enables intelligent, automated manufacturing processes and enables fast and accurate data collection from equipment and machines.

Examples of Industry 4.0 implementation could be the Smart Factory in the automotive industry. Automobile company BMW has invested in a smart factory in Dingolfing, Germany, that uses automation, robotics,AI and data analysis to increase productivity and improve production quality.

Similar smart factories, PepsiCo’s application at its plants in North America, using the Internet of Things,AI and data analysis to optimize production processes.

Even in the aerospace industry, the Boeing Company has introduced a number of Industry 4.0-related solutions in its factories, such as welding robots, data analytics and 3D visualization, to improve the efficiency and quality of aircraft production.

All of these examples show how Industry 4.0 is changing the ways and vision of manufacturing in various industries, while improving efficiency, quality and reducing costs.

By adopting such technologies, Leading Manufacturing Industries can create more efficient and effective workflows, leading to increased productivity and profitability, as well as increased market relevance.

Is this an innovative solution that is increasingly likely to be implemented?

It is very likely, but time will tell.