TY - JOUR A1 - Arango Pérez, Andrés T1 - Implementing Augmented Reality in the Flight Deck for Single Pilot Operations JF - Anwendungen und Konzepte der Wirtschaftsinformatik N2 - Single Pilot Operations is a current topic with the potential to significantly affect the future of commercial aviation. While financially attractive for airlines, Single Pilot Operations bring forth important safety concerns, especially regarding the lack of human redundancy in the flight deck, an increased workload for the single pilot, reduced situational awareness and a higher risk of human error. It is assumed that potential problems affecting Single Pilot Operations could be addressed by implementing an Augmented Reality (AR) device in the flight deck, by presenting additional information and supporting hints within the pilot’s field of view. Concretely, AR could be used to help reduce the single pilot’s workload, improve situational awareness and reduce the risk of human error. This paper sets out to demonstrate two use cases for augmented reality in the flight deck. A system, called Pilot Assist, was developed that allows pilots to conduct checklists interactively with a Microsoft HoloLens. The system also provides a holographic Head-up-Display. Pilot Assist was developed and demonstrated with a fixed base Airbus A320 simulator at the Technical University of Wildau. With the HoloLens’ spatial mapping capabilities – scanning and recognizing the environment around the user – it was possible to create a system that guides the pilot through the conduction of checklists. This is done by prompting the user towards the location of each checklist item in the cockpit, where information regarding necessary actions is projected. Furthermore, Pilot Assist is integrated with the aircraft systems, making it possible to obtain aircraft status data in real time, thus allowing error-checking of the pilot’s actions as well as automating the progress through checklists. The holographic Head-up-Display allows the user to look at the surrounding environment while presenting critical flight data within the user’s field of view. The holographic Head-up-Display is intended to contribute to the pilot’s situational awareness. Experts in the aviation field, including pilots, researchers and engineers had the chance to qualitatively assess the Pilot Assist tool. They pointed to limitations of both Pilot Assist and the HoloLens itself, but shared optimism as to how this technology and similar applications could indeed impact the future of flight operations. Concerns regarding the HoloLens’ weight, comfort and narrow field of view were expressed. However, continued development of head mounted devices (e.g. HoloLens 2) is expected in the coming years. Further research into augmented reality applications in the flight deck is needed to advance this and other use cases. Nonetheless, the experts agreed Pilot Assist provides beneficial support during single pilot operation considering the current prototypical nature of the system. Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:526-opus4-16649 VL - 9 SP - 60 EP - 72 PB - Arbeitskreis Wirtschaftsinformatik (AKWI) ER - TY - JOUR A1 - Walter, Andreas A1 - Kubica, Stefan A1 - Rocco, Vittorio T1 - Optimized fuel values for emission reduction JF - IOP Conference Series: Earth and Environmental Science N2 - Aviation is an integral and vital part of modern society. The growth over the last decades has consequences for greenhouse gas emissions and reducing this through efficiency within the same framework is difficult. Precision flight planning is crucial for reliably and optimized real environment aircraft operation. The presented study gives an overview of the status of the legal requirements for flight planning under the current fuel requirements of the European Union Aviation Safety Agency (EASA) and the emerging opportunities for fuel savings. As part of the larger study, planned and actual fuel figures of an international cargo airline were statistically analyzed. The overall analysis showed that there was no significant deviation between planned and consumed fuel. Based on the results, an adjustment of the planned alternative fuel quantity can be considered within the framework of an individual fuel plan. The possible savings potential using the example of Destination Alternate Airport fuel is presented. Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:526-opus4-18148 SN - 1755-1315 N1 - 4th International Conference on Sustainable Futures: Environmental, Technological, Social and Economic Matters (ICSF-2023) 22/05/2023 - 26/05/2023 Kryvyi Rih, Ukraine VL - 1254 PB - Institute of Physics Publishing (IOP) ER - TY - JOUR A1 - Walter, Andreas T1 - IT-Assisted Optimisation of Fuel Consumption in Air Transport JF - Anwendungen und Konzepte der Wirtschaftsinformatik N2 - Aviation continues to be an essential means of transport for passengers and cargo. In recent years, the COVID-19 pandemic led to a collapse. In 2022 Europe was back up to around 85% of 2019 levels(EASA, 2022).In 2021 van der Sman et al. predicted an recovery to 2019 levels in 2024 (van der Sman et al., 2021). However, fuel savings and emissions reduction have become increasingly important in recent years. As part of a PhD thesis, possibilities for reducing fuel consumption by reducing the final reserve fuel were investigated. A smaller amount of tanked fuel required leads to a reduction in the transported (fuel) weight and, thus, a reduction in overall fuel consumption. This is because fuel consumption for a given route depends, among other factors, on the aircraft's weight. The more an aircraft weighs, the higher the fuel consumption. To keep fuel consumption as low as possible, carrying only the minimum weight required for the route in question is the most economical. Carrying more or even unnecessary weight increases the amount of fuel required and consumed in flight. The overarching research aims to explore and evaluate how to reduce the fuel carried by aircraft and, thus, the total fuel required for a given flight. The main focus of this paper is on the opportunities and challenges that have arisen with introducing new fuel regulations in European aviation regulations. Operators with appropriate safety levels can apply more tailored provisions. This requires the demonstration of the safety level. This is achieved by defining specific safety performance indicators (SPIs), compliance with which is then continuously monitored and evaluated during operation. This requires the collection and evaluation of correspondingly large amounts of data. This is only possible using appropriate IT applications. Example belowshows the amount of data that accumulates during flight operations. Recording, processing and saving pose a challenge in this respect. On the other hand, performance-based regulations allow for a more individualised implementation on and by the respective companies via the demonstration of a corresponding level of safety. Safety indicators are used for this purpose, which must be obtained and evaluated from various existing data. A large amount of data, which can only be collected and processed with the help of various IT applications, represents a challenge. However, companies can benefit from the corresponding advantages if they can cope with this. The following is an excerpt of the requirements and possible implementation, focusing on the amount of data and the associated challenges and opportunities. KW - aviation KW - fuel KW - emissions reduction KW - IT support KW - big data Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:526-opus4-18408 SN - 2296-4592 IS - 17 SP - 59 EP - 68 PB - Hochschule Luzern ER - TY - GEN A1 - Bolle, Philipp A1 - Hees, Holger A1 - Maechtler, Tobias A1 - Wasser, Peter T1 - Wintertraining - Virtueller Bootssimulator für Schubschiffahrt T2 - Wissenschaftliche Beiträge 2/1998 N2 - In einer ersten Phase wurde in den Jahren 1995/96 ein Simulator für Motorboote unter Federführung der Projektlogistik GmbH Berlin entwickelt. Aufbauend auf den Erkenntnissen aus der Umsetzung dieses Projektes entstand im Jahr 1997 der Gedanke, einen „Virtuellen Bootssimulator für die Schubschiffahrt" zur Ausbildung von Bootsführern zu realisieren. Damit sollte sichergestellt werden, daß eine Ausbildung auch in den Wintermonaten möglich ist. Weitere Aspekte waren die entfallenden Kosten für den Kraftstoff und die Betriebskosten des Schubkahnes, sowie die Möglichkeit, Extremsituationen zu üben ohne Schäden hervorzurufen. Innerhalb ihres Praxissemesters bzw. ihrer Studienausbildung wurden zwei Studenten des Fachgebietes Wirtschaftsinformatik in die Aufgabenstellung eingebunden. Ihre Aufgabe war insbesondere die programmtechnische Umsetzung des Projektes. Y1 - 1998 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:526-opus4-7491 SN - 0949-8214 VL - 4 IS - 2 SP - 24 EP - 26 ER - TY - JOUR A1 - Wiebusch, Tim T1 - Expanding Frankfurt Airport Under Conflict: Social Responsibility on the Growth Path JF - Journal of European Management & Public Affairs Studies N2 - At airports, civil aviation meets its permanent companion: civil protest. Airports are under pressure to grow to meet air transport demand and stay competitive. In wide public perception, this interferes with their commitment to Corporate Social Responsibility (CSR) and sustainability goals. This article examines the new business environment for airports and proceeds to investigate the past and present of regional expansion conflicts at Frankfurt Airport, Germany. A very violent history of confrontation in the region has changed stakeholder approach culture, but recent years have again seen the rise of a new, well-organized anti-growth protest movement which uses confrontational tactics. The author discusses the operator’s strategy to counter the substantial opposition to its expansion by a communication campaign to generate visible public support for the airport, and analyzes broader CSR efforts which may help to avoid potential conflict escalation. The article concludes with eight recommendations for socially responsible airports. KW - advocacy campaign KW - airport expansion KW - air transport KW - community relations KW - corporate social responsibility (CSR) KW - environment KW - Frankfurt airport KW - Germany KW - growth KW - materiality assessment KW - noise KW - opposition KW - protest KW - stakeholder relations KW - sustainability KW - violence Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:526-opus4-3650 SN - 2199-1618 VL - 2 IS - 1 SP - 5 EP - 14 ER - TY - JOUR A1 - Ruh, Franziska T1 - Munich Airport’s Third Runway and Stakeholder Communications JF - Journal of European Management & Public Affairs Studies N2 - Airports create many benefits for their regions, but they also put a great burden on residents and communities in the near vicinity. The environmental impact is considerable. Naturally, growth and expansion plans for airports quickly generate controversy and resistance. Munich Airport (MUC), Germany’s second-largest airport after Frankfurt, has long planned to construct a third 4 km runway to increase capacity and ensure MUC’s position in a fiercely competitive aviation market. A 2012 citizen referendum has stopped these plans. This article examines the needs, instruments, limits and potentials of airport communications with its key stakeholders, using the example of MUC, in the context of the runway project. It finds that innovative means opened up important channels for communication and citizen participation, but partly failed because of the inherent political conflicts between the airport and neighboring communities which prevented consensus. Efforts of information and dialog are not sufficient to win public support. More active mobilization of citizen, business and media support is necessary to put voiceful opposition at bay. KW - airport expansion KW - air transport KW - infrastructure KW - Germany KW - Munich KW - community advisory council KW - NIMBY KW - noise KW - project management KW - protest KW - public acceptance KW - stakeholder communications KW - stakeholder management Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:526-opus4-3665 SN - 2199-1618 VL - 2 IS - 1 SP - 15 EP - 22 ER - TY - GEN A1 - Hotes, Andreas G. A1 - Fischer, Benjamin T1 - Untersuchung der kapazitiven Auswirkungen einer Variation im Personaleinsatz in der Handgepäck-Nachkontrolle einer Flughafen-Sicherheitskontrollspur am Beispiel des BER-Layouts T2 - Wissenschaftliche Beiträge 2018 N2 - Dieser wissenschaftliche Beitrag stellt die Untersuchung einer modernen Sicherheitskontrollspur für Passagiere und Handgepäck dar, wie sie unter anderem am Flughafen Berlin-Brandenburg Willy Brandt (BER) Anwendung finden wird. Nach einer Beschreibung der Verfahrensabläufe einer Sicherheitskontrolle entsteht unter Verwendung realer Passagierparameter und analysierter Prozesszeiten mit der Simulationssoftware CAST Terminal ein detailliertes Modell, mit dem die Passagierkapazität der Kontrollspur untersucht und ein eventueller Engpass lokalisiert werden kann. Durch zielgerichtete Veränderungen in der Personalbesetzung der Handgepäck-Nachkontrolle sollen daraus folgende kapazitive Auswirkungen bei einer Betrachtung unterschiedlicher Szenarien unter Variation der Alarmrate der Handgepäckprüfanlage untersucht werden. Mit steigender Alarmrate verschiebt sich der Kapazitätsengpass aus der Gepäckaufnahme in die Handgepäck-Nachkontrolle, was den Einsatz eines zweiten Nachkontrolleurs erforderlich macht. N2 - The paper comprises a simulative analysis of a modern security control lane for passengers and hand luggage as will apply at Berlin-Brandenburg Airport Willy Brandt. After a description of the procedures of a security control, a detailed model will be built utilizing the simulation software, CAST Terminal, and using real passenger parameters and process times to analyze the capacity of the control lane and locate a possible bottleneck. Due to purposive staff changes in the second hand luggage control, capacitive effects could be studied in consideration of different alarm rates of the baggage screening system. With an increasing alarm rate the capacitive bottleneck moves from luggage pick-up to second hand luggage control, which makes it necessary to employ a second security inspector. Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:526-opus4-10271 SN - 0949-8214 VL - 22 SP - 53 EP - 60 ER - TY - RPRT A1 - Hartmann, Frank A1 - Mietzner, Dana T1 - Die Flughafenregion Berlin-Brandenburg: Analyse des Status quo als Bestandteil einer Szenarioanalyse zur Zukunft der Region als Wissenschafts- und Innovationsstandort N2 - Internationale Flughäfen sind wichtige Infrastrukturkomponenten mit der Funktion, vielfältige internationale Austauschprozesse zu ermöglichen. Dabei spielen Face-to-Face Kontakte über große Entfernungen hinweg eine Rolle, die für den Austausch vor allem von implizitem Wissen von großer Bedeutung sind. Bei der Realisierung dieser Funktion stehen Flughäfen in Wechselbeziehungen mit zahlreichen regionalen Entwicklungsbedingungen. Sie nehmen diese in Anspruch und entfalten hierbei vielfältige direkte und indirekte Wirkung auf ihr Umfeld. Auf diese Weise entstehen funktionale Räume, die als Flughafenregionen bezeichnet werden. Das vorliegende Working Paper beschreibt den Status quo der Flughafenregion Berlin-Brandenburg. Dem liegt eine Analyse zugrunde, die von einem Regionenverständnis geleitet ist, das system- und akteursbezogene Perspektiven aufweist. Sie geht weiterhin von der gemeinsamen These verschiedener Ansätze aus der Wirtschaftsgeografie und Innovationsforschung aus, die besagen, dass die Bedeutung räumlicher Nähe der Wissenserzeugung und -anwendung sowie des regionalen, interorganisationalen Lernens für Innovationsprozesse vorteilhaft sind. Charakterisiert wird die Flughafenregion deshalb als Wissenschafts-und Innovationsstandort. Gefragt wird darüber hinaus nach Ansätzen für eine Spezialisierung. Im Ergebnis wird deutlich, dass die Region bereits über starke Potenziale in diesen Bereichen verfügt, gegenwärtig eine hohe Ansiedlungsdynamik aufweist, aber noch kein typisches wirtschaftliches Spezialisierungsmuster ausgeprägt hat. Die zukünftige Entwicklung ist diesbezüglich offen. Im weiteren Verlauf der Szenarioanalyse wird daher der Frage nachgegangen, ob sich Spezialisierungspfade entwickeln werden, welche das sein könnten und wie regionale Entwicklungsbedingungen und Akteurskonstellationen beschaffen sein müssten, um einen solchen Profilierungsprozess zu befördern. T3 - fast track to TRANSFER : Working Paper Series - 005 KW - Flughafenregion KW - Regionale Entwicklungsbedingung KW - Wirtschaftsstruktur KW - Wissenschaftspotenzial Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:526-opus4-15916 PB - Technische Hochschule Wildau ; Brandenburgische Technische Universität Cottbus-Senftenberg ER -