Deze publicatie presenteert de resultaten van het Smartest Connected Cargo Airport Schiphol (SCCAS)-project: een tweejarig onderzoek naar logistieke innovaties die de concurrentiepositie van Schiphol op de luchtvrachtketen versterken. In dit project hebben KLM Cargo, Schiphol Nederland, Cargonaut, TU Delft en Hogeschool van Amsterdam samen met diverse partijen in de luchtvrachtketen nieuwe inzichten ontwikkeld om het afhandelingsproces op Schiphol te stroomlijnen en de productkwaliteit in temperatuurgevoelige ketens zoals bloemen en farma beter te beheersen.In Europa heeft Schiphol een sterke positie: het is de derde vrachtluchthaven na Frankfurt en Parijs. Door de beperking van het aantal beschikbare slots op Schiphol krijgen andere luchthavens zoals Brussel, Luik en Luxemburg de kans om extra lading aan te trekken. Het is daarom de ambitie van Schiphol zich te ontwikkelen tot de Europese voorkeursluchthaven voor logistiek hoogwaardige goederenstromen zoals e-commerce, farmaceutische producten en bloemen, en zich te onderscheiden door een efficiënt en betrouwbaar afhandelingsproces. Om die positie te bereiken zet Schiphol in op vier concrete innovatiedoelstellingen:- verbetering van transparantie in de keten door het delen van informatie;- inzicht in logistieke prestaties op basis van volledige en betrouwbare data over zendingen;- efficiënte en betrouwbare aan- en afvoer van luchtvrachtzendingen (landside pickup & delivery);- procesverbeteringen in de supply chains van temperatuurgevoelige producten.
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The Netherlands is the largest export country of cutflowers in the world. Air cargo transport of flowersamounts to 25 percent of the total annual tonnage ofgoods that go through Schiphol Airport. However, due touncertainty of the future development in internationaltrade, as well as the increasing competition from otherhub airports in Europe and new developments in themaritime transport sector, forecasts point to a less rosypicture for the Schiphol airport and Netherlands.To maintain and improve the international competitiveposition of Schiphol airport as a 'preferred hub' forflowers, it is important to keep up with developments inthe international markets, changes in the internationalvalue chain of flowers and to strengthen the competitiveposition of Schiphol in relation to competing airports(Brussels, Liège, Frankfurt and Paris).In this paper, we develop a conceptual framework thatassesses the competitiveness of Schiphol airportcompared to its European competitors, based on a model that takes into consideration transport and logistics costs, as well as other variables like quality of services and local and business environment. The results show that Schiphol can maintain it competitive advantage due to competitive indicators as trade costs, hub position in international air-networks, quality of handling goods, and the existence of high-quality airport infrastructure and a unique business environment, which attract international business.However, the results of the flower trade analysis showthat Liège airport has become a direct competitor ofSchiphol, as this airport scores better than Schiphol fortrade in flowers above 1,000 kg. Liège airport scoresequally to Schiphol in terms of monetary, transport costsand quality of services.
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Amsterdam Airport Schiphol has faced capacity constraints, particularly during peak periods. At the security screening checkpoint, this is due to the growing number of passengers and a shortage of security staff. To improve operating performance, there is a need to integrate newer technologies that improve passing times. This research presents a discrete event simulation (DES) model for the inclusion of a shoe scanner at the security screening checkpoint at Amsterdam Airport Schiphol. Simulation is a frequently used method to assess the influence of process changes, which, however, has not been applied for the inclusion of shoe scanners in airport security screenings yet. The simulation model can be used to assess the implementation and potential benefits of an optical shoe scanner, which is expected to lead to significant improvements in passenger throughput and a decrease in the time a passenger spends during the security screening, which could lead to improved passenger satisfaction. By leveraging DES as a tool for analysis, this study provides valuable insights for airport authorities and stakeholders aiming to optimize security screening operations and enhance passenger satisfaction.
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Client: European Institute of Innovation and Technology (EIT) The European Institute of Innovation & Technology, a body of the European Union founded to increase European sustainable growth and competitiveness, has set up a number of Knowledge and Innovation Communities (KIC). One of these Communities is on climate change (Climate-KIC). In 2013, Climate-KIC in the Netherlands approved funding for the IMPACT project (IMPlementation & Adoption of Carbon footprint in Tourism travel packages). This ‘pathfinder’ project aimed to assess the viability of and market for a comprehensive carbon calculator. Such a calculator would enable enterprises in the wider travel industry to determine the carbon dioxide emissions, the main cause for climate change, of tourism products and include ‘carbon management’ in their overall policy and strategy. It is generally expected the cost for fuel and carbon will significantly rise in the near en medium future. The calculator will not only cover flights, but also other transport modes, local tourism activities and accommodations. When this pathfinder project finds interest for carbon management within the sector, we aim to start a much larger follow-up project that will deliver the calculator and tools. The IMPACT project was coordinated by the research institute Alterra Wagenigen UR, the Netherlands. Partners were: - Schiphol Airport Group, Amsterdam, The Netherlands- Technical University Berlin, Germany- TEC Conseil, Marseille, France- TUI Netherlands, Rijswijk, The Netherlands- NHTV Breda University for Applied Sciences, The NetherlandsThe project ran from September 2013 to February 2014.
