Research On Packaging And Scheduling Of S Company Logistics System

Since the release of the "Made in China 2025" plan,market competition has intensified and the impact of the new coronavirus has caused countries around the world to focus their market economy on domestic development.As a major producer and consumer country,the development of logistics and transportation has become the top priority.At the same time,the transportation capacity of many companies’ proprietary logistics transportation fleets is far from being able to meet the increasing transportation demand.Third-party logistics companies are gradually emerging,relying on companies with factory warehouses.Carrying out efficient and professional logistics services,arranging a reasonable order distribution plan and dispatching the distribution of transportation vehicles,improving the transportation efficiency of logistics transportation vehicles,and reducing transportation costs have become a key problem for more and more companies to overcome.As the two key categories in combinatorial optimization problems-distribution and scheduling,they play an important role in logistics management,transportation planning,industrial production and other industries.Their research has witnessed the development of algorithm theory and provided an important theoretical and scientific basis for the study of other discrete combinatorial optimization problems,it is a classic industrial engineering problem.This paper takes S company’s logistics system optimization project as an example,proposes a scheduling algorithm suitable for the actual situation of the project,optimizes the existing logistics system,and makes it more practical.First,under the premise of comprehensively considering the volume and weight constraints,Using BFD and the researched new approximate algorithm BFCS and BFD-V algorithm combined with tabu search algorithm to calculate the mixed stacking and distribution problem under multiple constraints obtain the global optimal solution to solve the packaging problem of goods Finally,a prototype system is established for application in actual transportation scenarios.This method provides a feasible solution for logistics transportation between factory warehouses of S company,and can greatly improve the efficiency of logistics transportation and effectively reduce transportation costs.