Equipment Options - Moderate Capacity
First is our battery-operated Rack-Traversing-Robot (RTR) featuring a pole-less design for multi-directional access and increased picking flexibility. The RTR is equipped with LIDAR-based navigation, proximity sensors, and servo-driven motors for precise acceleration and deceleration.
Multiple RTRs operate concurrently within a single aisle using wireless fleet coordination and anti-collision protocols. The control system is fully integrated with the Warehouse Management System (WMS) and Enterprise Resource Planning (ERP) software to enable real-time inventory synchronization.
For items that cannot be boxed, we use conveyors, escalators, and rail carts to transport loads. For one clothing manufacturer, we built elevators and conveyors to transport horizontally and vertically, with multiple subsystems allocated to designated spaces for various items. The algorithms determine the shortest, fastest route between all locations and prioritize empty pallets for the closest cell.
We also developed a high-capacity shuttle-rack Automated Storage and Retrieval System (AS/RS), which increased goods-to-person picking efficiency by up to 80% and reduced outbound processing time by 60%. The system utilizes intelligent shuttle dispatch protocols, high-speed cross-belt sorters, and articulated robotic arms with machine vision for precise product identification and automated palletizing. Advanced visual sensors, barcode scanners, and real-time PLC control enhance accuracy and throughput without reliance on generalized AI solutions.
Multiple RTRs operate concurrently within a single aisle using wireless fleet coordination and anti-collision protocols. The control system is fully integrated with the Warehouse Management System (WMS) and Enterprise Resource Planning (ERP) software to enable real-time inventory synchronization.
For items that cannot be boxed, we use conveyors, escalators, and rail carts to transport loads. For one clothing manufacturer, we built elevators and conveyors to transport horizontally and vertically, with multiple subsystems allocated to designated spaces for various items. The algorithms determine the shortest, fastest route between all locations and prioritize empty pallets for the closest cell.
We also developed a high-capacity shuttle-rack Automated Storage and Retrieval System (AS/RS), which increased goods-to-person picking efficiency by up to 80% and reduced outbound processing time by 60%. The system utilizes intelligent shuttle dispatch protocols, high-speed cross-belt sorters, and articulated robotic arms with machine vision for precise product identification and automated palletizing. Advanced visual sensors, barcode scanners, and real-time PLC control enhance accuracy and throughput without reliance on generalized AI solutions.
