![]() The 3D scans of the whole body or a specific body part can be used in the medical industry for high-precision surgery or, in sports, for the analysis of body movements and performance improvement. To prevent logs from vibrating on the conveyor and thus allow a high-quality 3D image acquisition without motion artifacts, costly hydraulic systems often need to be used to hold the logs in place.ģD vision can also be used to scan the human body and generate a detailed 3D model. First, each log needs to be 3D scanned so the robot knows exactly where and how to cut based on the X, Y and Z coordinates received from the machine vision system. Logs are placed onto moving conveyors to be transported to a 3D vision-guided robot equipped with a chainsaw or other wood processing tool. ![]() Here again, conveyor belts are the arteries of an automated sawmill. The challenging factor is not only the fact that the fish are moving on the conveyor but also that their slimy bodies cause additional, unpredictable movement when sliding on the belt.Īutomation is also widely used in the wood industry, where large and heavy logs need to be milled and cut into identical planks and smaller pieces. The role of the robot is to recognise each fish type and sort it based on 3D data and colour information. The fish are placed on a moving conveyor belt that transports them to a vision-guided robot. Imagine a facility where freshly caught fish of different species need to be sorted. And the demand for such applications is rapidly increasing. The task gets more challenging if a robot needs to recognise and handle objects that are moving in a random and unpredictable manner. But some applications can be even more arduous. Through the combination of 3D vision and AI, a robot can recognise various types of objects, navigate to them, pick them and sort them based on specific criteria. ![]() The ability to react to the surrounding environment and make decisions is crucial. Most modern industrial applications require technologies that enable robots to see, understand and act according to what they perceive in the three-dimensional space. Applications that rely on 3D scanning in motion
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