Cutting-edge technology is constantly changing modern industrial automation. As technology advances so does automation, making it more efficient. We can achieve new automation solutions that were once thought to be impossible.
In this post, you’ll learn more about how new technology changes automation. It can impact it in many ways, so keep reading to learn more.
Artificial Intelligence and Automation
Artificial intelligence, or AI, is the newest and fastest-advancing modern tech. Its computation power doubles every six months, which is highly impressive. This rapid growth allows for industrial automation to advance since AI has many uses in the field.
AI allows for machine learning in automation. The automation machines can process more data than ever before and learn from it. This process permits AI to optimize operation times and achieve higher-quality products.
It works by checking for defects and stopping machine failures before they happen. So, with a reliable AI system, you can prevent downtime and keep your equipment running at its best.
Impact of More Advanced Sensors
Sensors are another part that’s advancing in the automation world. Better sensors mean you receive more precise controls on important factors in the automation process. These sensors can send you information to your device, allowing you to make essential choices in real time.
For example, you can receive detailed data on temperature fluctuations that occur during automation processes.
You can quickly adjust and respond to these changes, allowing your company to produce higher-quality products.
Combining these sensors with enhanced AI and machine learning allows your automation system to respond on its own, without any human input. Whether or not you use machine learning technology, you can still greatly benefit from accurate smart sensors on all of your critical systems.
Good sensors are also important for any robots you have in your automation lineup. They can make the equipment more precise for making products. Plus, it also makes it safer for your team because the robots will “know” where they are with more accuracy.
You should check what sensors will work best with quality Schneider Electric parts for your system. For example, sensors that shut down circuits automatically can help keep your team safe in emergencies.
Overall, sensors are essential for automation. As they advance, they help the industry move forward.
3D Printing Advancements
Next, 3D printing is another cutting-edge technology advancing quickly and has a place within automation. It allows for more customization in the industry because you can print anything and add it to your machine systems or use it as part of the product.
You can personalize anything if you can create a 3D model first. Many businesses print quality robotics parts and use them to minimize downtime and increase their system’s performance. It’s excellent for making spare parts that can be hard to find.
Plus, 3D printing is often useful for making product prototypes. You can see how the final item will look before you start making it in your automation system. You’ll get to refine the prototypes before moving on to the final product so you can spot potential issues first.
Overall, 3D printing has a place in modern industrial automation. More uses for this cutting-edge tech are being discovered daily. So, you’re sure to find uses for it within your processes.
Augmented and Virtual Reality for Testing and Practice
Augmented and virtual reality, or AR and VR, are other modern technologies that are advancing automation today. They’re both excellent options for training and learning how to use your machines. They can teach your team how to run the equipment.
AR shows your equipment on a screen through a camera, like a smartphone. It can help you design your automation system because you can visualize the setup easier. It’s also good for repairs because workers can see instructions and other important information over the equipment they’re repairing.
VR is perfect for training because it shows you a virtual world with the machines running. You can use them to practice running the equipment efficiently. VR can also simulate dangerous situations, without risking putting your team in real harm. That way, they can practice how to respond to emergencies safely.
Also, many companies use modern VR to test workflows before applying it to real life. You can determine which configurations work best before putting them into practice. You can quickly spot possible problems before you make those adjustments.
Cobots for Collaboration With Humans
Robots are a critical part of automation. However, they can be bulky and dangerous for people. With modern advancements, collaborative robots, or cobots, can work with humans safely. They can enhance productivity when used correctly.
Cobots use specialized technology that makes them more responsive and sensitive to people around them. Cobots can glue, weld, solder, sand, and much more. You can program them to do nearly anything, so you can have them handle multiple tasks over a day.
Cobot technology is advancing quickly. You can find one for nearly any task you have.
Cloud Computing for Data Storage
Lastly, the cloud has a significant impact on automation. It allows for storage of large amounts of data remotely, so you can access it anywhere. It’s very scalable and can hold data from your various sensors and controls.
The cloud can have unlimited storage which is essential for modern automation. You don’t want to run out of storage in the middle of a project because you could lose valuable data.
Cloud computing also allows for better teamwork. Your various departments can all see the information they need at the same time, making it easier to work together. Advancements in cloud computing make it easier for everyone to keep the automation machines running as smoothly as possible.
Cutting-Edge Tech Makes Modern Automation Possible
Without new technology advancements, automation wouldn’t be where it is today. Using AI, VR, and the cloud can make your systems run much more efficiently. This technology has a significant role in reducing downtime and keeping workers safer on the job.