The Internet of Things (IoT) is providing a major boost to the automation sector. Industrial automation firms that employ IoT solutions can benefit in several ways as it allows engineers to develop new technologies to tackle issues, improve processes, and increase output.
The Internet of Things is the connection of inextricably identifiable electronic devices via data plumbing on the Internet, such as IP, cloud computing, and web services. It is fair to mention that the Internet of Things (IoT) has a significant impact on industrial automation, and it motivates us to utilize tablet computers, smartphones, virtualized systems, and cloud storage for data.
On the other hand, Industry 4.0 is the intersection of cyber-physical systems and the Internet of Things (IoT). The IoT includes smart sensors that give managers more accurate information on which they can base their decisions for growth in today's competitive environment.
The industrial automation sector has started to adopt IoT technologies at a much slower pace as compared to other sectors such as healthcare and retail. However, this is changing now, and industrial automation companies are realizing the benefits of IoT technologies.
Let us examine the different ways in how the Internet of Things (IoT) is affecting industrial automation:
The impact of IoT on industrial automation is very positive. The main reason behind this is that the industrial sector has started to adopt IoT technologies at a much slower pace as compared to other sectors such as healthcare and retail. However, this is changing now, and industrial automation companies are realizing the benefits of IoT technologies.
One of the main advantages of IoT for industrial automation is that it helps engineers develop new technologies to tackle issues, improve processes, and increase output.
For example, if there is a problem with a machine, engineers can use data from sensors on that machine to diagnose the issue and fix it immediately. In addition, by using data analytics, firms can get insights into how their processes are performing and make changes accordingly.
IoT is also helping industrial automation companies to move from a product-oriented business model to a service-oriented model. In fact, by offering services such as data analytics and remote monitoring, which help improve the overall customer experience, firms can generate more revenue from their existing products.
Many industrial automation companies in today's world are also moving towards a service-oriented business model because they can invest heavily in new technology and equipment to produce goods for their customers. With the help of IoT, engineers can use smartphones, tablets, and other devices to monitor the status of the machines and get alerts when there is an issue.
For example, if you own a factory or machine shop where robots work 24 hours a day, 7 days a week, you would need people to monitor these systems constantly and address any issues that arise immediately. However, this can be time-consuming and expensive because you would require at least one person per shift to watch over these systems all day long.
With IoT for industrial automation, companies can use smart sensors and devices to monitor machines and enable operators to receive alerts when there is an issue. This will help companies shift their focus from monitoring machines to servicing them, which will save them time and money.
Another advantage of IoT for industrial automation is that it allows companies to make process improvements quickly and easily. By collecting data from different machines, companies can analyze how well their processes are performing. In addition, they can also identify areas where they can improve efficiency.
For example, if a company wants to increase the output of a particular machine, they can study the data collected by sensors on that machine and try to identify the root cause of any issues. Once the root cause is identified, they can make changes to improve production.
IoT helps make process improvements by providing engineers with more visibility and control over their operations. These benefits can help companies achieve operational excellence and increase their competitiveness.
The Internet of Things (IoT) has had a huge impact on industrial automation because it is helping companies develop new technologies that will make the operating environment much safer for the people working there.
For example, if a company uses robots or automated machines in its factory (equiped with HMIs, for example), IoT can be used to monitor those systems and determine whether they are working as expected. In addition, IoT sensors on machines can detect areas where safety measures need improvement and alert managers about potential hazards before they even occur such as fire safety hazards. This will enable companies to make changes to their safety protocols and improve the safety of their workers.
Along with making the operating environment safer, IoT is also helping industrial automation companies protect the environment. By collecting data from different machines, companies can monitor how much energy they are using and identify areas where they can reduce their energy consumption. In addition, they can also develop strategies to recycle or reuse materials more efficiently.
For example, if a company wants to reduce its environmental impact, it can use data analytics to study the amount of energy it consumes and find ways to reduce that consumption. In addition, it can also look for ways to recycle or reuse materials instead of sending them to a landfill.
IoT for industrial automation is helping companies become more efficient and environmentally responsible, which will help them stay competitive in the future.
Another advantage of IoT for industrial automation is that it allows firms to work in a more open and collaborative manner. Using IoT technologies, engineers can work with vendors and customers from across the world to implement new services and increase performance without facing any issues.
For example, using cloud-based services, an engineering team can access data from machines such as wind turbines located thousands of miles away for performing predictive maintenance.
Original article by Nevatio Engineering