There are many types of warehouses in automated three-dimensional warehouses, among which stacker three-dimensional warehouses are widely used in enterprise warehousing, but some enterprises do not know much about how it realizes intelligent scheduling, so let's summarize with everyone!Stacker three-dimensional warehouse
Task allocation: According to the scale, structure, and specifications of the warehousing system of the warehouse, the relevant algorithms are used to determine the applicable intelligent scheduling scheme. First, assign job tasks from the global level of the warehouse, and assign inbound and outbound tasks to specific storage units.
Cargo location allocation: Allocation of inbound and outbound cargo locations for specific storage units. Through a comprehensive analysis of inventory data, item characteristics, equipment performance and other factors, a reasonable location is allocated to each storage unit.
Queue optimization: The batch job queue for each storage unit is optimized based on the location allocation result in the previous step. Adjust job sequences and priorities based on factors such as the urgency of tasks and the busy status of equipment to improve overall operational efficiency.
Intelligent scheduling system: Build an intelligent scheduling system, which is responsible for real-time monitoring of the operation status, equipment status, task progress and other information of the warehouse. Through data analysis, machine learning Xi and other technologies, the intelligent scheduling system can optimize future operation needs and equipment performance changes, so as to make adjustments and optimizations in advance.
Human-machine collaboration: The intelligent scheduling of the stacker three-dimensional warehouse not only needs the support of automation equipment and intelligent systems, but also needs to be combined with manual operation. Through human-machine collaboration, the organic combination of automation and manual operation is realized to improve the efficiency and accuracy of operation.
Exception handling: During intelligent scheduling, exceptions such as device failures and task changes may occur. The stacker crane three-dimensional warehouse needs to have corresponding exception handling capabilities, including fault detection and repair, task reassignment and other mechanisms to ensure the normal operation of the warehouse.
In short, the intelligent scheduling of the stacker three-dimensional warehouse needs to be realized through task allocation, cargo location allocation, queue optimization, intelligent scheduling system, human-machine collaboration and exception handling. This can not only improve the operational efficiency and service quality of the warehouse, but also reduce operating costs and improve the competitiveness of enterprises.