Details
Container Handling in Automated Yard Blocks
An Integrative Approach Based on Time InformationContributions to Management Science
128,39 € |
|
Verlag: | Springer |
Format: | |
Veröffentl.: | 28.01.2019 |
ISBN/EAN: | 9783030052911 |
Sprache: | englisch |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
<div>The yard block of a container terminal is the central point of synchronisation for asynchronous container flows between deep-sea vessels and transport to the hinterland. The structure of the block stipulates that containers are stacked on top of each other with only the topmost container directly accessible by a yard crane. </div><div>This book describes a holistic and integrative approach to container handling in yard blocks to optimise productivity by minimising re-handling operations. The results provide insights for academic scholars as well as for experts from practical terminal planning and operations. The approach presented is two-fold: first, a theoretical foundation of the interdependencies in decision-making is established using mathematical programming. Secondly, operations involving uncertain container arrival information are examined on the basis of a simulation with a rigorous experimental design and statistical evaluation. In this context, the book develops container-handling strategies and analyses the impact of a system for vehicle arrival management – the "Terminal Appointment System". The findings presented in this book are the result of a close cooperation with experts at the port of Hamburg and build on previous research.</div><div><br></div><div><br></div>
Introduction to Container Handling Research.- Container Terminal Environment.- Container Handling in the Yard Area.- Literature Review on Container Handling in the Yard Area.- Integrated Container Handling.- Algorithmic Analysis Based on the Problem Decomposability.- Re-marshalling Problem.- Terminal Appointment System.- Interaction Effects of Yard Block Properties, Re-marshalling and TAS.- Conclusion and Recommendations for Efficient Container Handling. <div><br></div>
<b>Filip Covic</b> is an industrial engineer and was a research assistant at the Institute for Operations Research at the University of Hamburg where he received his PhD in 2018.
The yard block of a container terminal is the central point of synchronisation for asynchronous container flows between deep-sea vessels and transport to the hinterland. The structure of the block stipulates that containers are stacked on top of each other with only the topmost container directly accessible by a yard crane. <div>This book describes a holistic and integrative approach to container handling in yard blocks to optimise productivity by minimising re-handling operations. The results provide insights for academic scholars as well as for experts from practical terminal planning and operations. The approach presented is two-fold: first, a theoretical foundation of the interdependencies in decision-making is established using mathematical programming. Secondly, operations involving uncertain container arrival information are examined on the basis of a simulation with a rigorous experimental design and statistical evaluation. In this context, the book develops container-handling strategies and analyses the impact of a system for vehicle arrival management – the "Terminal Appointment System". The findings presented in this book are the result of a close cooperation with experts at the port of Hamburg and build on previous research. </div><div><br></div>
Introduces a holistic and integrative approach to container handling Provides insight into the management of practical container terminal planning and operations Employs mathematical programming to establish a theoretical basis for decision making