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The turning of the lead screw transfers the motor power to the spring. It presses from the lower belt on the upper belt, supports the upper body and relieves the lumbar spine.

If you have added manufacturing robots to your facility, you are already aware of the advantages they provide and the ROI. Robots do have a downside, however, when it comes to programming—most of the time, they must be offline to be updated or programmed.

Solving the challenge of the last mile using traditional methods, like human teams and traditional automation systems, can require a massive upfront investment of capital and time – and often isn’t enough to gain an edge in an already cutthroat market.

The American Welding Society has predicted a deficit of 400,000 welders by 2024. According to specialist welding technologists K-TIG, a US welder’s skills are in such high demand they can demand a salary of $100,000.

Insurance can generate high costs, with general liability alone costing businesses a median of $500 a year. If robots can reduce premiums and claims, it would make a strong argument in their favor.

In service robotics as well as in academia, flexibly designable, use-case specific controllers are used, resulting in the respective robots to mainly act as actuators with low-level control systems but without individual intelligence.

The robotics industry is undergoing a significant transformation. There is a need to learn from the past, as multiple times, robots failed to behave as expected because of mechanical failure, power disruption, software issues, and environmental factors.

The GPU is constantly evolving, and not just for gaming or 3D graphics for product design, but it is increasingly be tasked with supporting machine learning and AI inference analysis through its parallel processing with the ability of simultaneous multiple computations.

Like any mechanism, robots can shed particles from belts, gasses from hoses and dust particles from the movement of the end effectors. It is this particle disbursement that can be the critical issue for clean room robotics.

The so-called ‘no code’ revolution in programming seeks to make the automation industry more autonomous and to democratize the use of robotics at the shop floor level.

How an integrated hardware and software approach can simplify the development and deployment of robotics applications

Heavy washdown and harsh chemical solutions used to clean robots in FDA and USDA sanitary environments for food processing can impact the robot finish, as well as leave condensation on robotic machinery that could potentially reach food products being handled.

Modern transportation wouldn’t be the same without robots, and the future will only serve to solidify this. Here’s how robots are pushing the transportation industry forward and where they could go from here.

Automated packaging solutions can streamline almost any business’s operations, providing a potential competitive edge and benefits like reduced waste or lower labor needs.

Up until now, users in the metal and plastics processing industries often faced a difficult choice: with CNC lathes and milling machines, one opted either for the largest possible variance or for large volumes, i.e., high quantities.