This study focuses on the problem of operational decision making for stacking of outgoing containers. A container station has multiple interfaces in the global transport network. Containers are temporarily stored in ports to explain differences in the arrival time of sea and land carriers. Incoming and outgoing container operations are different. The incoming containers arrive at the shipyard in large batches but depart from the shipyard in unpredictable rows one by one when requested. This leads to unforeseen time losses. Containers leaving the port depart as expected but arrive in a random order. They must be loaded according to a strict storage plan to ensure stability of the ships and meet the loading requirement - this is indicated by the destination and the size of the containers. The storage location assignment for incoming containers is very important in terms of improving the efficiency of container transport and reducing the turnaround time of a ship. For this reason, this problem should be examined in detail and effective solution methods should be found. There are many planning periods horizon. This leads to uncertainty. To overcome this uncertainty, the rolling horizon approach is used. In this study, 13 planning period horizons are taken into account. Each day was divided into 4 periods of 6 hours each. Therefore, a storage location plan is created for the next 12 periods in each period. Only the first period of the plan is executed and at the end of the first period a new plan is created based on the latest information. Hybrid Sequence Stacking Algorithm was used to solve these plans. The performance of the method used in the solution of the problem considered in this study is evaluated according to the number of rehandle operation. The less this number, the more successful the method. As a result of the application, only 3 of 13 periods needed to be rehandle operation.
Storage Management Storage Location Assignment Rolling Horizon Approach Heuristics Hybrid Sequence Stacking Algorithm Container Placement
Depo Yönetimi Depolama Konumu Atama Katman Kaydırma Yaklaşımı Sezgisel Yöntemler Hibrit Dizi İstifleme Algoritması Konteyner Yerleştirme
Birincil Dil | Türkçe |
---|---|
Konular | Mühendislik |
Bölüm | Makaleler |
Yazarlar | |
Yayımlanma Tarihi | 31 Ekim 2019 |
Yayımlandığı Sayı | Yıl 2019 Özel Sayı 2019 |