Joint Optimization of Item and Pod Storage Assignment Problems with Picking Aisles’ Workload Balance in Robotic Mobile Fulfillment Systems

Abstract: The item and pod storage assignment problems, two critical issues at the strategic level in robotic mobile fulfillment systems, have a strong correlation and should be studied together. Moreover, the workload balance in each picking aisle needs to be considered in the storage assignment problems to avoid robots’ congestion within picking aisles. Motivated by these, the joint optimization of item and pod storage assignment problems (J-IPSAP) with picking aisles’ workload balance is studied. The mixed integer pr… Show more

“…The paper also introduces a flexible routing policy to further enhance the efficiency of the system. Zhang et al (2024) propose a joint optimization of item and pod storage assignment problems in robotic mobile fulfillment systems by considering the correlation frequency of items in purchase orders. Their main objective is to minimize the robots' travel distance and ensure workload balance to avoid congestion.…”

Optimizing Travel Distance in a Synchronized-Zone Order Picking System: A Mathematical Programming Approach

“…The paper also introduces a flexible routing policy to further enhance the efficiency of the system. Zhang et al (2024) propose a joint optimization of item and pod storage assignment problems in robotic mobile fulfillment systems by considering the correlation frequency of items in purchase orders. Their main objective is to minimize the robots' travel distance and ensure workload balance to avoid congestion.…”

Optimizing Travel Distance in a Synchronized-Zone Order Picking System: A Mathematical Programming Approach

“…The paper also introduces a flexible routing policy to further enhance the efficiency of the system. Zhang et al (2024) propose a joint optimization of item and pod storage assignment problems in robotic mobile fulfillment systems by considering the correlation frequency of items in purchase orders. Their main objective is to minimize the robots' travel distance and ensure workload balance to avoid congestion.…”

Optimizing Travel Distance in a Synchronized-Zone Order Picking System: A Mathematical Programming Approach