论文信息 - Genetic mechanism-based coupling algorithm for solving coordinated scheduling problems of yard systems in container terminals

Genetic mechanism-based coupling algorithm for solving coordinated scheduling problems of yard systems in container terminals

We corrects several writing mistakes in paper.For YC scheduling subsystem model, some missed constraints are add to the model.The fitness of the MGA is revised. This study develops models and methods utilized for solving the coordination scheduling problem in the yard of a container terminal. Based on the information shared by the yard storage subsystem and the YC scheduling subsystem, and the interaction between these subsystems, a coordination scheduling model, which is composed of a storage subsystem model, a YC scheduling subsystem and a coordinate controller model, is developed. A coupling algorithm, which is based on a genetic mechanism, is developed to solve the coordination scheduling problem. The algorithm adopts the genetic selection, crossover and mutation operations to adjust the yard storage plan and the YC scheduling plan. The performance of the coordination scheduling model and that of the proposed coupling algorithm are confirmed with reference to a numerical example.

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