Inside GEODIS: Putting robots to work

Mobile collaborative robots have increased productivity and throughput at GEODIS’ Indianapolis e-fulfillment center.

Mobile collaborative robots have increased productivity and throughput at GEODIS’ Indianapolis e-fulfillment center.

GEODIS

Indianapolis, Ind.
Size: 250,000 square feet
Products: Apparel and fashion
Stock Keeping Units: 30,000
Throughput: 20,000 units per day
Shifts: 1 shift per day/7 days a week


Read more about the GEODIS e-fulfillment center in the feature article from February 2019 Modern Material Handling Magazine.


GEODIS is one of a handful of third-party logistics (3PLs) providers that have embraced mobile collaborative robots to improve throughput and productivity and create a better working environment for their employees. Here’s how they’re deployed.

At the present, GEODIS is using the cobots only in the picking process. Picking begins when a wave of orders is created in the proprietary warehouse management system (WMS). To the WMS, a robot is the equivalent of another associate, so the wave is created as if the tasks would be assigned to an associate. The wave is batching single-line orders.

Once the wave is complete, orders are routed to the robot control system through an interface. The robot control system knows the location of associates and cobots on the floor and begins to send orders to the floor in a manner designed to maximize efficiency while minimizing traffic. Depending on the number of orders to fill for the day, the location of inventory and density of the picks, the system will assign three to six cobots to an associate.

Totes are conveyed to an induction area, and then items are conveyed to packing to complete the orders for shipping.

Once a cobot receives an assignment from the robotic control system, it travels to the pick location. An associate in that area then walks over to complete the assignment and picks the required number of units to the tote. Associates wear a Bluetooth-enabled identification badge that communicates with the cobot. That allows the unit to keep track of and report feedback on the associate’s performance. The associate receives picking instructions on a display screen and confirms the pick on a scanner underneath the display. When the pick is complete, the associate receives the recommended location for the next available cobot.

Meanwhile, the cobot returns to an induction station where another associate removes the tote and inducts it on a conveyor to packing. The associate then scans a new tote to the cobot, which travels to the next pick location to start the process all over again.


System suppliers:

About the Author

Bob Trebilcock's avatar
Bob Trebilcock
Bob Trebilcock was the executive editor for Modern Materials Handling and an editorial advisor to Supply Chain Management Review. He has covered materials handling, technology, logistics, and supply chain topics for nearly 30 years. He is a graduate of Bowling Green State University. He retired in 202 but serves as a consultant to Modern and Peerless Media.
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About the Author

Bob Trebilcock's avatar
Bob Trebilcock
Bob Trebilcock was the executive editor for Modern Materials Handling and an editorial advisor to Supply Chain Management Review. He has covered materials handling, technology, logistics, and supply chain topics for nearly 30 years. He is a graduate of Bowling Green State University. He retired in 202 but serves as a consultant to Modern and Peerless Media.
Follow Robotics 24/7 on Facebook
Follow Robotics 24/7 on Linkedin

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