What is the key technology behind robotics in the automotive industry?
Where would we all be without tech in our lives? From using social media to learn more about Instagram stories to chatting with friends over a video call, it is central to how we exist. Tech is also really important to the business world, and this sees many sectors use it to grow. One example of this is the automotive industry.
It is fair to say that this is one sector that has embraced tech to remain relevant. Who can imagine still driving about in an original Model T Ford after all?! Modern cars are packed full of innovative tech (like driver assist parking) which has helped the car industry remain vibrant. The way cars are made has also changed over time and this is certainly true when thinking about robotics in auto manufacture.
Since first being introduced around 40 years ago, robotics has had a huge impact and made car making less of a manual, human process. Key to the success of robots in this sector has been the tech that powers them – and also the humans who program them.
Tech is not the only thing auto robotics needs!
Before we look at what cool tech powers robotics within the auto industry, it is worth remembering that skilled human workers are still needed by manufacturers. While the robots used to build cars are very clever, they have to be programmed by a human engineer.
That means the computer and electrical engineering roles in the auto sector make a great career choice. A fast-growing job market, it not only offers superb opportunities for global employment but also pays pretty well too! The key to working in this sector of auto engineering though is having the right qualifications. Studying for Kettering Universities MS Engineering-Advanced Mobility ECE degree is a smart move and can be completed online for extra convenience. Rated among the Top 100 Colleges with no application fee in the USA, it is a great place to learn more about robotics in advanced mobility.
The tech contained within the robots you program IS very cool though and is worth knowing more about. But what type of thing are we talking about here?
Perhaps THE key part of any robotic tech within the auto sector is AI. This allows the robots within vehicle manufacturing to use their own programmed intelligence when performing pre-set tasks. Without AI at the heart of these robots, they would not be able to work in such an efficient way. Instead, the human engineers would have to keep a constant check to ensure everything was running as intended. With AI in place, auto robotics can use their artificial intelligence to fix any issues they spot when working or adapt to issues as they arise.
Machine vision tech
As well as AI, many of the robotic systems used in the auto sector now include machine vision technology. This is pretty much as it sounds – some of the robotics seen in manufacturing plants will use sophisticated internal cameras and processors to see what is around them. This is especially handy for noticing when human workers are coming close to them, so they can stop working to keep people safe. It also makes robotics with machine vision ideal for jobs like parts inspection. As the tech which powers machine vision is very sensitive and robots do not get tired or miss things, it means this tech allows robots to perform the task to a higher, more reliable standard.
Pressure sensor tech
Another key piece of technology seen within advanced robotic systems in the auto industry is pressure sensors. These basically enable the robot to remain sensitive to pressure when handling parts, especially more fragile ones. Of course, this is handy as it stops parts from getting damaged or broken when being robotically handled on the production line. It also enables the robots to act like a human would in the same situation and cover more tasks. Sensors in the robotic arm itself work with internal microprocessors to tell the robot how much pressure to apply when holding a component.
Robotics in the auto industry is vital
Although they are now a common sight within auto manufacturing, robotics only really came to the fore in the late 1970s/early 1980s. Since then, they have improved dramatically and are now used by carmakers globally. When you consider the cost and time saving they provide, that is not a surprise. For the auto sector, advanced robotics also helps more innovative and sophisticated vehicles to be produced. When combined with other tech in this sector (such as self-driving vehicles), then it is clear to see how important robots are to the auto sector’s continued growth.