The use of robotic arms also frees human workers from performing tasks that present a risk of bodily injury. By automating the process, palletizing becomes more accurate, cost-effective, and predictable. Robotic arms can be used to automate the process of placing goods or products onto pallets. Here are some of the most common ways manufacturers are using robotic arms today: Automating these types of tasks not only removes human workers from possibly hazardous situations, but it enables those workers to take on high-value tasks such as interfacing with customers. One of the key advantages of industrial robotic arms is their versatility for supporting multiple applications-from the simplest to the most complex jobs in the safest or harshest environments. This process enables predictive maintenance, which in turn helps reduce maintenance costs while improving machine uptime. The robot can compute data at the edge or transmit it to a server or the cloud for remote monitoring. One area that benefits from this transformation is equipment (robot included) maintenance. With these advancements in machine vision, AI and network technologies, robotic arms can now see, analyze, and respond to their environments while transmitting valuable data and insights back to facility and business management systems. They also expand the range of tasks that robots can accomplish. These capabilities allow robots to operate more accurately and more consistently, and safer and faster than before. These smart, vision-augmented robots can detect objects in their surroundings, recognize them by types, and manipulate them accordingly. Today, thanks to devices such as Intel® RealSense™ high-resolution depth cameras, powerful CPUs and GPUs, and AI technologies such as the Intel® Distribution of OpenVINO™ toolkit, robotic arms are augmented with the sensing and intelligence to perform new tasks. ![]() Robots were not able to identify a particular type of object among many, determine an object location with some tolerance (area rather than exact position), or adjust the grasp based on object orientation. In the past, a robotic arm required teaching to perform narrowly defined tasks, such as picking a single type of object from a precise location with a specific orientation. ![]() And as robotic technologies develop and industrial environments become more connected, the capabilities of robotic arms expand to enable new use cases and business operation models. ![]() They are used in factories to automate execution of repetitive tasks, such as applying paint to equipment or parts in warehouses to pick, select, or sort goods from distribution conveyors to fulfill consumer orders or in a farm field to pick and place ripe fruits onto storage trays. Robotic arms, also known as articulated robotic arms, are fast, reliable, and accurate and can be programmed to do an infinite number of tasks in a variety of environments. From manufacturing to automotive to agriculture, industrial robotic arms are one of the most common types of robots in use today.
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