Tag Archive for: Industrial Internet of Things


Manufacturing companies around the world are in the process of digital transformation. Industry 4.0 is fundamentally changing the models of industrial markets and increasing the competitiveness of their members. Thus, the level of digitalization determines the growth prospects of any manufacturing company.

Understand the benefits of digital transformation

Now, more and more manufacturing enterprises are investing not only in the automation of existing processes, but also in the implementation of new, breakthrough business models and technologies based on Industry 4.0, to improve their capacity in integration and maximize the use of their digital platforms. This kind of aggressive approach will only help in improving their digital ecosystems and allow companies to get in-depth analytics of big data, and wider implementation of the Internet of Things (IoT).

According to the

McKinsey Global Institute

by 2025 the Internet of Things (IoT) applications could have a total economic impact of $11 trillion US dollars annually.

Implementation of Industry 4.0 technologies should be a priority for all manufacturers. By integrating production machines, business systems and their legacy systems, manufacturers can achieve much greater productivity and efficiency and become more agile and lean. The principle of Industry 4.0 is based on the massive introduction of information technology into industry, as well as large-scale automation of business processes.

The main goal of Industry 4.0 is to make manufacturing – and its related industries such as logistics – faster, more efficient, and more customer-centric. At the same time, moving beyond automation and optimization and discovering new business opportunities.

Manufacturing Digital Transformation and Prejudice

Many factories are lagging behind the rapid growth of new technologies. This can be explained by the cost of the equipment (which is very expensive to change to a new one), as well as by the fear of changing their production processes. Despite outdated technology and old machines, they still work and play a main role in the entire manufacturing business.

Often, manufacturing executives think they cannot do anything with their old equipment, which may have been made even before the Internet. Therefore, they continue to use these bulky and expensive to maintain production machines. Moreover, older technologies cannot provide complete real-time data.

The lack of real-time information makes it difficult to make decisions and prevents executives from successfully developing further and competing on an equal footing with more technologically advanced competitors in the market.

Meanwhile, the erroneous assumption about the need to replace all equipment drives them away from increasing productivity and taking full advantage of the integration of new technologies into production. We have a solution that can help any factory and any production!

Transformation of Legacy Systems with FactoryEye

All factories have different resources, strengths and weaknesses, and unique capabilities. However, there are proactive and proven solutions that can be applied across all industries, even with legacy systems and old equipments, to accelerate IT transformation.

FactoryEye is a unique solution capable of fully integrating all IT systems in your company (ERP, CRM, PLM, MES, WMS, SCM) with manufacturing production machines. It provides complete visibility and analysis of operational processes in real time.

With FactoryEye, all critical and disparate data is visible and accessible in real time. Most importantly, you do not need to change existing manufacturing machines, existing systems and infrastructure to do this.

Why transformation of legacy systems is useful in the Manufacturing?

Reduces operating costs. IoT sensors monitor hard-to-reach parts and signal hazards, record fuel consumption, monitor equipment temperatures, and automatically alerts when something goes wrong.

Reduces labor costs. Employees receive the necessary data using sensors and cameras. They don’t have to go anywhere anymore to take the readings off the equipment or request information from colleagues.

Reduces the risks of accidents and, accordingly, the costs of eliminating the consequences. Devices and sensors have learned to predict abnormal situations or accidents.

In other words, the optimization of processes and productivity is the first advantage that manufacturers enjoy. In addition to cost savings, increased profitability, reduced waste, automation to avoid errors and delays which results in a faster production.

Look for an IT service provider with hands-on experience.

To help in such concept implementation, a manufacturing company should team up and partner with service a provider who can share their own experience in implementing digital transformation projects for manufacturing world, based on Industry 4.0

An experienced IT provider with such an engineering expertise, will be able to define project path and actions, recommend the best procedures and services, and help you find the best way to transform your factory to gain new benefits. If the project is planned and executed correctly, it will lead to increased profits and quicker ROI.

To learn more about how our solutions can help your business overcome manufacturing challenges, contact us today

Industry 4.0 whitepaper

This post was updated to reflect current trends and information.


Many countries and big businesses are active participants in the Fourth Industrial Revolution. Commercial associations and non-profit organizations were created to support the development of Industry 4.0.

Experts identify some basic technologies that include Industry 4.0

– Industrial Internet of Things

When manufacturing equipment is combined into one common network and is controlled by a single production management system.

– Augmented reality

Applicable for various purposes, for example, displaying instructions for repair and maintenance of equipment, etc.

– BIG DATA and business intelligence

Analytics of a large amount of data, which allows to optimize product quality, save energy and increase equipment uptime.

Today let’s talk about the most important technology in Industry 4.0 – Industrial Internet of Things

What is The Industrial Internet of Things (IIoT)?

The Industrial Internet of Things (IIoT) refers to the integration of internet-connected devices and sensors with industrial processes and systems. It extends the concept of the Internet of Things (IoT) to industries, such as manufacturing, energy, transportation, and agriculture, to enhance operational efficiency, productivity, and safety.

IIoT leverages various technologies, including sensors, actuators, cloud computing, machine learning, and data analytics, to enable real-time monitoring, control, and automation of industrial operations. It involves connecting physical devices, machines, and equipment to the internet, allowing them to collect and exchange data.

The key components of IIoT are:

  1. Devices and Sensors: Industrial equipment, machines, and devices are equipped with sensors to collect data on parameters like temperature, pressure, humidity, vibration, and more.

  2. Connectivity: IIoT relies on robust and secure network connectivity, such as Wi-Fi, Ethernet, cellular networks, or dedicated industrial protocols like MQTT or OPC-UA, to transmit data between devices, sensors, and backend systems.

  3. Cloud Computing: IIoT systems utilize cloud platforms to store, process, and analyze the massive amounts of data generated by connected devices. Cloud-based services provide scalable and flexible infrastructure for data storage and computing resources.

  4. Data Analytics and Machine Learning: IIoT leverages advanced analytics and machine learning algorithms to extract valuable insights from the collected data. These technologies enable predictive maintenance, anomaly detection, optimization, and decision-making.

  5. Industrial Applications: IIoT finds applications across various industries, including manufacturing, where it enables remote monitoring of production lines, predictive maintenance of machinery, and optimization of supply chains. It is also used in energy grids for smart metering and grid management, in transportation for fleet management and logistics, and in agriculture for precision farming, among other sectors.

IIoT: History and Forecast

One of the first sectors where the Internet of things began to be actively introduced was the energy industry. Intelligent analytics is especially necessary where industrial facilities operate autonomously, distributed across different territories and vulnerable to various external threats.

The IIoT allows connecting natural gas-powered electricity plants located in different cities (for example, there are 1,793 natural gas-powered electricity plants in the United States) to a single forecasting and remote monitoring system, building digital models of the power station.

According to a report “IIoT & Remote O&M” published by the McIlvaine Company, the power industry represents a $ 19 billion annual Industrial Internet of Things (IIoT) market growing at 8 percent annually.

As reported by Machina Research and Nokia, revenues of the global market for the industrial Internet of Things will reach 484 billion euros in 2025, and the main industries will be Transport, Industry, Housing and Utilities, Healthcare, and Smart home applications. At the same time, the main revenue will come from applications, analytics, and services for end-users.

How does the Industrial Internet of Things work?

Industrial Internet of ThingsAt the first stage of IIoT implementation, sensors, actuators, and other controllers are installed on industrial equipment. Thus, it becomes possible to collect information that allows management to obtain objective and accurate data on the state of production. Processed data is provided to all departments of the enterprise. This helps to establish interaction between employees of different departments and make informed decisions.

The information obtained can be used to avoid unplanned downtime, equipment breakdowns, reduce unscheduled maintenance and supply chain management problems, thereby allowing the company to function more efficiently.

Filtering and adequate interpretation of huge array unstructured data coming from equipment’s sensors becomes a priority for Industry4.0. Thus, for delivery information in understandable and clear form manufacture 4.0 use advanced analytical platforms. These platforms designed to collect, store and analyze data on technological processes in real-time.

Wireless devices such as smartphones, tablets, and sensors, are already actively used in manufacturing. Existing wired sensor networks expanding and supplementing by wireless networks, which significantly expand the use of monitoring and control systems at manufacturing enterprises.


Useful info: Industry 4.0: How to Manage Digital Transformation in manufacturing enterprises? 


As digital ecosystems evolve, manufacturing enterprises from isolated systems that perform all the necessary production processes on their own will be transformed into open systems uniting various production participants (Raw material suppliers, manufacturers, warehouses, distribution networks, etc.)

The Best Solution for Industry 4.0

Industry 4.0 and industrial internet of things A survey conducted by Honeywell with KRC Research among more than 200 executives in North American manufacturing companies revealed that unplanned downtime was seen as a major threat to revenue growth.

At the same time, 42% of respondents admitted that they operate equipment with a greater load than they should.

To avoid downtime at the enterprise, it is necessary to introduce technologies to detect and predict risks. Continuous monitoring of key indicators makes it possible to identify the problem and take the necessary measures to solve it. The instant analysis helps operators find the causes of problems faster.

Thus, manufacturers are approaching the point where they need to improve business results and make proactive, informed, more intelligent decisions without the need to change existing systems or infrastructure.

We have a solution for Manufacturers of all Sizes. FactoryEye is a great solution, designed for manufacturers.

With this comprehensive solution, manufacturers can track not only production but also all business process in real-time. It allows you to make dynamic, proactive decisions, delivering tangible business results at every stage.

Industry 4.0

Benefits of Switching to the Internet of Things Model

Using more and more robots and introducing IIoT in production will reduce staff costs, overhead and improve quality. For example, the Philips razor factory in the Netherlands operates in a dark manufactory with 128 robots. The entire plant staff consists of nine employees.


Lights-out manufacturing, often called a dark factory, is the methodology of production, and not a specific process. Factories that turn off the lights are fully automated and do not require a human presence on site.


Our solution Factory Eye gives to manufacturers a lot of benefits:

  • Increased productivity
  • Reduced material waste
  • Improved on-time delivery
  • Increased costing accuracy
  • Better knowledge preservation
  • Better control

Where to start IIoT?

The Industrial Internet of Things is changing business models, enabling companies to achieve high economic results. In the modern world, business success is determined by the ability to apply innovation and focus on results.

If you want to know more about what benefits the implementation of the principles of Industry 4.0 can bring to your business and how to transform it based on advanced technologies, contact us.

Industry 4.0 whitepaper


This post was updated to reflect current trends and information.


What is Industry 4.0?

Industry 4.0 is the leading trend of the fourth industrial revolution taking place before our eyes.

The main focus of Industry 4.0 is to fully automate production facilities where all processes are controlled in real-time while considering the ever-changing external conditions.

In Industry 4.0, Internet-based technologies play a crucial role in facilitating communication between personnel and machines.

Industry 4.0

The “Industry 4.0” program was discussed for the first time, in 2011 at an industrial exhibition in Hanover, where the German government set a goal to expand the use of information technology in manufacturing. A highly professional team made up of business and government representatives worked on the creation of a program to modernize the country’s industrial enterprises in this direction. The objective of the program is to preserve and increase the competitive advantages of the country’s enterprises.

Active interest over the past years in Industry 4.0 for both government and business in Germany is easily explained.

Back in 2015, Roland Berger, a global strategy consulting firm in its Digital Industry Transformation report, predicted that the EU economy could lose 605 billion euros in the coming years if it ignores the development of Industry 4.0. But if they are fulfilled, the potential profit can reach 1.25 trillion euros.

Not surprisingly, other countries follow the example of Germany, for example, in Japan, the “Japan Institute for Promotion of Digital Economy and Community (JIPDEC)” was created.

In 2014 the largest US companies – AT&T, Cisco, GE, IBM, and Intel – created an open non-profit group – the Industrial Internet Consortium (IIC). The main objective of the Consortium is the creation of an ecosystem of companies, research centers and government agencies favorable for the implementation of the industrial Internet.

Internet of Things (IoT) – The key Technology of Industry 4.0

A key technology in Industry 4.0 is the Internet of Things (IoT). The Internet of things is a network of physical objects that have built-in technologies that allow them to interact with the external environment, transmit information about their condition and receive data from the outside.

In other words, in this technology, the Internet is used to exchange information not only between people but also between all kinds of “things”, i.e. machines, devices, sensors, etc. On one hand, objects equipped with sensors can exchange data and process them without human intervention. On the other hand, a person can actively participate in this process.

What is the Industrial Internet of Things (IIoT)?

An integral part of the Internet of Things and its main driving force at this stage of technology development is the Industrial Internet of Things (IIoT).

The IIoT opens the direct way to the creation of fully automated industries or as we call it now– the Smart Factory.

In the IIoT approach, the key components of an equipment are: sensors, actuators, and controllers; The collected data is processed and sent to the appropriate services of the company, which allows staff to quickly make informed and prudent decisions. But the goal of IIoT is to achieve a level of automation of the enterprise, in which machines dispersed in multiple sites, work without the participation of people. The role of personnel, in this case, comes down to monitoring the operation of the machines and responding only to emergencies.

Challenges Faced by Industrial Enterprises to Adopt Industry 4.0

As discussed above, Industry 4.0 is about connecting people with machines, devices, and data to allow humans to act upon data in a proactive manner, to improve decision making and optimize business processes.

Here are the main challenges that many manufacturers face when considering new Industry 4.0 business models:

  • Budget – expensive solutions that often involve investing in (expensive) new systems and processes.
  • Long implementations – management time burden and reduced efficiencies before an eventual improvement.
  • Finding the right people with the appropriate level of expertise
  • Not knowing where or how to start

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Steps Towards Industry 4.0

Managing digital transformation in manufacturing enterprises, often referred to as Industry 4.0, involves integrating digital technologies into all aspects of the manufacturing process to create a more connected, efficient, and data-driven operation.

To efficiently adopt a new technology 4.0 and transform your production into a smart factory you should follow the following steps:

Connect and Integrate

To achieve operational excellence and ensure your competitive advantage, you need real-time connectivity of all company departments into a unique business system. Automate business processes and orchestrate workflows to synchronize and streamline data from multiple sources.

Implement Internet of Things (IoT) devices and sensors to gather real-time data from machines and processes.

Collect and Manage

You must be able to collect and manage all your company’s critical information about operations, order fulfillment, sales, marketing, accounting, etc. in one place with no data gaps.

Visualize and Analyze

Stay on top of errors and inefficiencies by receiving alerts before they affect your business. This can be done with FactoryEye, a smart solution designed specifically for manufacturers. FactoryEye visually displays your processes, demonstrates all the results, and helps you better understand data, trends, and forecasts in real-time, allowing you to act efficiently.

Identify and Optimize

Proactively identify process intervention points, enabling live, informed decision-making to optimize business results.

Cybersecurity Measures

Implement robust cybersecurity measures to protect sensitive data and intellectual property. Regularly update and audit security protocols to stay ahead of evolving cyber threats.

Collaboration and Partnerships

Collaborate with technology vendors, industry partners, and research institutions. Foster an ecosystem of innovation and knowledge-sharing to stay updated on emerging technologies.

Digital Transformation in Manufacturing with FactoryEye

FactoryEye is a highly productive, flexible, low-code and hybrid platform that seamlessly integrates between manufacturer’s legacy core IT systems, cloud systems, and factory machines, collecting and analyzing large data from multiple repositories.

Smart Factory and Industry 4.0

FactoryEye provides production managers and operators (using IoT technology) real-time data about “what’s goes on” on the shop floor. It does that by presenting the information on desktops, tablets or smartphones, enabling a fast reaction to irregularities. The effect is an increase in the OEE (Overall Equipment Effectiveness), thus a reduction in production costs. FactoryEye is fully integrated into the customer’s ERP enabling the automatic transfer of work orders to the shop floor and delivering real-time data from the shop floor to the ERP system for further usage.

Smart Factory IIoT

This smart solution, made for manufacturers, lets you focus on improving your business. Real-time visualization of all production data and predictive alerts that prevent problems before they occur.

Industry 4.0 – Call on the Experts

We implement FactoryEye according to the priorities identified together with our client. Our holistic approach draws on best practices and a strategic alliance with Magic Software, a global company that empowers manufacturers with smarter technology to make the smooth transition to Industry 4.0 and maximize business opportunities.

If you want to learn more about how FactoryEye can help save on costs and improve your factory’s efficiency, contact us today

Industry 4.0 whitepaper