Off-peak truck deliveries at container terminals: the 'Good Night' program in Israel

Purpose – Avoiding truck congestion and peaks in landside activity is one of the challenges to container terminal managers. The spreading of truck arrivals at terminals can be facilitated by widening the opening hours of terminals at the landside. Israel’s Ministry of Transport has instituted the “Good Night Program”, involving monetary incentives for importers and exporters who deliver containers to ports at night. Design/methodology/approach – This paper aims to quantitatively examine the market utility resulting from shifting traffic from daytime to nighttime, and analyzes customer considerations regarding nighttime transportation. Findings – The external utility found in the traffic-economics model is quite similar to the economic incentive given to customers. Therefore, a significant increase of the incentive is not feasible. Originality/value – Furthermore, it seems that an incentive method by itself is not effective enough, and does not motivate customers to act and find creative solutions to the obstacles they face. To achieve a considerable change in nighttime transport to Israeli ports, more effective methods should be examined

Extended Gate Concept for Maritime Automobile Terminals

The article is focused on the role of a maritime automobile terminal in finished vehicle logistics (FVL). Different drivers that force the management of a maritime automobile terminal to find new solutions in accommodating the increased flows of vehicles are described. The analysis of the maritime automobile terminal at Koper indicates the need to further expand the storage area and its delivery zone to support regular clients from the automotive industry. The main research goal of the paper is to elaborate and describe the model where an external storage platform under port’s operation might be used. On this basis the analysis of current inbound and outbound flows is elaborated. The model of Extended Gate Concept (EGC) for a maritime automobile terminal is presented as an option to serve increased outgoing flows of finished vehicles. With proper infrastructure development, established inland connections and secured information flow the presented EGC model can be adopted at the observed maritime automobile terminal. Nevertheless, obstacles hindering EGC implementation play a crucial role in the model implantation, thus the final consent should be given by the relevant stakeholders in FVL

Wireless communication, identification and sensing technologies enabling integrated logistics: a study in the harbor environment

In the last decade, integrated logistics has become an important challenge in the development of wireless communication, identification and sensing technology, due to the growing complexity of logistics processes and the increasing demand for adapting systems to new requirements. The advancement of wireless technology provides a wide range of options for the maritime container terminals. Electronic devices employed in container terminals reduce the manual effort, facilitating timely information flow and enhancing control and quality of service and decision made. In this paper, we examine the technology that can be used to support integration in harbor's logistics. In the literature, most systems have been developed to address specific needs of particular harbors, but a systematic study is missing. The purpose is to provide an overview to the reader about which technology of integrated logistics can be implemented and what remains to be addressed in the future

Sea Container Terminals

Due to a rapid growth in world trade and a huge increase in containerized goods, sea container terminals play a vital role in globe-spanning supply chains. Container terminals should be able to handle large ships, with large call sizes within the shortest time possible, and at competitive rates. In response, terminal operators, shipping liners, and port authorities are investing in new technologies to improve container handling infrastructure and operational efficiency. Container terminals face challenging research problems which have received much attention from the academic community. The focus of this paper is to highlight the recent developments in the container terminals, which can be categorized into three areas: (1) innovative container terminal technologies, (2) new OR directions and models for existing research areas, and (3) emerging areas in container terminal research. By choosing this focus, we complement existing reviews on container terminal operations

Managing optimum workload through terminal appointment system (TAS) : Case of Jakarta International Container Terminal

The Dissertation is a study of optimizing terminal through Terminal Appointment System (TAS), comparing the impact of unscheduled truck arrival with regulated truck arrival to the optimization process. A brief look is taken at present growth in container business. The rapid growth of world container trade, especially in Asia brings economic potentials for the countries and also challenges for container terminals. Capacity limitation in accommodating the trade growth forces the terminal to optimize their existing equipment and facilities. The evaluation of the existing performance of each component of the terminal operation, covering quay, yard and gate operation, is a starting point to identify the crucial problem in the optimization process. Many terminals implement Terminal Appointment System (TAS) to optimize their operation. This dissertation discuss the benefit and the impact of TAS implementation to the container terminal operation. The concluding chapter examines the impact of TAS solution in optimizing terminal operation. Some recommendations are made concerning the implementation of TAS

Scheduled service network design with synchronization and transshipment constraints for intermodal container transportation networks

In this paper we address the problem of scheduled service network design for container freight distribution along rivers, canals, and coastlines. We propose a new concise continuous- time mixed-integer linear programming model that accurately evaluates the time of occurrence of transportation events and the number of containers transshipped between vehicles. Given the transportation network, the eet of available vehicles, the demand and the supply of containers, the sailing time of vehicles, and the structure of costs, the objective of the model is to build a minimum cost service network design and container distribution plan that denes services, their departure and arrival times, as well as vehicle and container routing. The model is solved with a commercial solver and is tested on data instances inspired from real-world problems encountered by EU carrier companies. The results of the computational study show that in scheduled service networks direct routes happen more often when either the eet capacity is tight or the handling costs and the lead time interval increase. The increase of the same parameters leads to the decrease of the number of containers transshipped between vehicles

Technical, economic and energetic competitiveness of rail-road combined transport: evaluation of the effects of possible ITS applications on intermodal terminal.

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