Applied Manufacturing Technologies and FANUC to Highlight Collaborative Mixed-Load Handling at Automate 2026
Publish Date: 2026-06-10 16:08:00
Source Domain: finance.yahoo.com
AMT’s demonstration in FANUC booth #1001 combines collaborative robotics and AI-enabled vision technology for mixed-load palletizing and depalletizing applications in warehouse and logistics environments.
ORION, Mich., June 10, 2026 /PRNewswire/ — Applied Manufacturing Technologies (AMT) North America’s leader in automation engineering, specializing in advanced material handling, end-of-line solutions, on-demand engineering services, and autonomous mobile robots (AMRs) for manufacturing, warehousing, and logistics, will exhibit at Automate 2026. The conference and exhibition is North America’s largest robotics and automation event, taking place June 22–25 at McCormick Place in Chicago.
AMT logo
Exhibiting within the FANUC booth (#1001), AMT will present a live collaborative robotic demonstration focused on mixed-load handling applications for warehouse, logistics, and manufacturing operations.
The demonstration will feature collaborative palletizing and depalletizing of mixed-case loads using a FANUC CRX collaborative robot integrated with AI-enabled vision and intelligent robot control software from Mujin. Developed by AMT and powered by FANUC collaborative robotics and MujinOS, the intelligent software platform, the application reflects growing demand for flexible automation in inbound logistics, warehouse flow management, 3PL operations, and high-mix distribution environments.
Warehouse operators and manufacturers continue to face labor shortages, ergonomic concerns, and increasing pressure to improve throughput while managing a wider mix of products and packaging configurations. Mixed-load palletizing and depalletizing applications present additional challenges because systems must adapt to changing box sizes, pallet patterns, and material flow requirements.
AMT developed the demonstration to show how collaborative robotic systems can support warehouse operations where flexibility, portability, and operator interaction are…
