The application of freight drones in the city logistics system of concentrated urban demand point clusters
Abstract
One of the fundamental questions for transport management in the near future is how to integrate unmanned aerial vehicles into the existing transport ecosystem efficiently, but above all as safely as possible. With the rapid development of the drone industry, the possibility arose, obviously, that these devices could also be used in urban freight transport. Trial operations are being conducted in many countries around the world to test the usability of unmanned aerial vehicles in transportation, and in a number of countries, drones are already a stable part of city logistics systems.
References
Dr. Bóna Krisztián, Sárdi Dávid Lajos (2018). Koncentrált városi igénypontok áruellátó logisztikai rendszereinek elemzése és mezoszkópikus szintű modellezése. Logisztikai Évkönyv 2019, pp. 121-130. Magyar Logisztikai Egyesület. DOI: https://doi.org/gm3z
BME-ALRT City Logisztikai Kutatócsoport (2021). URL: https://www.logisztika.bme.hu/citylog/
Dr. Bóna Krisztián, Dr. Lipovszki György, Sárdi Dávid Lajos (2020). A városi koncentrált igénypont-halmazok city logisztikai rendszereinek Python-alapú szimulációs modellezése. Logisztikai Évkönyv 2021, pp. 115-127. Magyar Logisztikai Egyesület. DOI: https://doi.org/10.23717/LOGEVK.2021.12
Dávid Lajos Sárdi, Krisztián Bóna (2019). Examination of the logistics systems of concentrated sets of urban delivery points by simulation. The 21th International Conference on Harbour, Maritime & Multimodal Logistics Modelling and Simulation, Lisszabon, Portugália, pp. 1-10., Szerkesztette: Eleonora Bottani, Agostino Bruzzone, Francesco Longo, Yuri Merkuryev, Miquel Angel Piera. URL: http://www.msc-les.org/proceedings/hms/2019/HMS2019.pdf
Dávid Lajos Sárdi, Krisztián Bóna (2020). AHP-based multicriterial ranking model for the city logistics analysis of urban areas. 10th International Conference on Logistics, Informatics and Service Sciences (LISS2020), Peking, Kína, online. Megjelenés alatt.
Bálint Mészáros, Dávid Lajos Sárdi, Krisztián Bóna (2017). Monitoring, measurement and statistical analysis (MMSA) based methodology for improvement city logistics of shopping malls in Budapest. World Review of Intermodal Transportation Research,6 (4), pp.352-371. DOI: https://doi.org/gm32
Dr. Bóna Krisztián, Sárdi Dávid Lajos (2019). A városi koncentrált igénypont-halmazok áruellátási rendszerének új koncepciói a különböző közlekedési alágazatok lehetőségeinek kihasználásával. XIII. IFFK Konferencia (Innováció és fenntartható felszíni közlekedés) 2019, Budapest. ISBN: 978-963-88875-4-2
Dr. Bóna Krisztián, Sárdi Dávid Lajos, Kormos Henriett, Major Petra, Posta Máté Imre (2020). Kötöttpályás városi áruszállítási lehetőségek vizsgálata Budapesten az AHPmódszer alkalmazásával. XIV. IFFK Konferencia (Innováció és fenntartható felszíni közlekedés) 2020, Budapest, online. ISBN: 978-963-88875-6-6
Dr. Bóna Krisztián, Sárdi Dávid Lajos (2019). Áruszállító kerékpárok alkalmazási lehetőségeinek értékelése a bevásárlóközpontok logisztikai rendszerében a hálózat geometriai struktúrája alapján. Logisztikai Évkönyv 2020, pp. 163-173. Magyar Logisztikai Egyesület. DOI: https://doi.org/gm33
Deutsche Post DHL Group (2021). DHL Paketkopter. URL: https://www.dpdhl.com/de/presse/specials/dhl-paketkopter.html
DHL (2019). DHL express launches its first regular fully-automated and intelligent urban drone delivery service. URL: https://www.logistics.dhl/tw-en/home/press/press-archive/2019/dhl-express-launchesits-first-regular-fully-automated-andintelligent-urban-drone-delivery-service.html
DHL (2019). URL: https://www.dpdhl.com/content/dam/dpdhl/en/media-center/media-elations/images/2019/dhl-dronedelivery-service-20190516-02.jpg
Daimler (2017). Vans & Drones in Zurich: Mercedes-Benz Vans, Matternet and siroop start pilot project for on-demand delivery of e-commerce goods. URL: https://media.daimler.com/marsMediaSite/en/instance/ko/Vans--Drones-in-Zurich-Mercedes-Benz-Vans-Matternet-and-siroop-startpilot-project-for-on-demand-delivery-of-commerce-goods.xhtml?oid=29659139
Amazon (2016). Amazon Prime Air. URL: https://www.amazon.com/Amazon-Prime-Air/b?e=UTF8&node=8037720011
Malek Murison (2019). Drone Delivery: Google’s Project Wing Takes Off In Australia. DroneLife. URL: https://dronelife.com/2019/04/11/google-wingdrone-delivery-australia/
UPS Pressroom (2020). UPS Flight Forward And Wingcopter To Develop Versatile New Drone Fleet. URL: https://pressroom.ups.com/pressroom/ContentDetailsViewer.page?ConceptType=PressReleases&id=1585013339002-237
Rachel Premack (2020). America's largest retirement community can soon receive their prescriptions from CVS via a UPS drone delivery service. Business Insider. URL: https://www.businessinsider.com/ups-cvs-drone-deliveries-the-villagesflorida-2020-4
Tom Ward (2020). Walmart Now Piloting Drone Delivery of COVID-19 At-Home Self-Collection Kits. Walmart. URL: https://corporate.walmart.com/newsroom/2020/09/22/walmart-nowpiloting-drone-delivery-of-covid-19-athome-self-collection-kits
Kevin Dorling, Jordan Heinrichs, Geoffrey G. Messier, Sebastian Magierowski (2017). Vehicle Routing Problems for Drone Delivery. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 47 (1), pp. 70-85, DOI: https://doi.org/f9j7qb
Chase C. Murray, Amanda G.Chu (2015). The flying sidekick traveling salesman problem: Optimization of drone-assisted parcel delivery. Transportation Research Part C: Emerging Technologies, 54, pp. 86-109. DOI: https://doi.org/f7bvcq
Thomas Kirschstein (2020). Comparison of energy demands of drone-based and ground-based parcel delivery services. Transportation Research Part D 78 102209. DOI: https://doi.org/ghwfdh
Insu Hong, Michael Kuby, Alan T. Murray (2018). A range-restricted recharging station coverage model for drone delivery service planning. Transportation Research Part C: Emerging Technologies, 90, pp. 198-212. DOI: https://doi.org/gdmjrb
Mohamed Salama, Sharan Srinivas (2020). Joint optimization of customer location clustering and drone-based routing for last-mile deliveries. Transportation Research Part C 114 pp. 620–642. DOI: https://doi.org/gm34
Quang Minh Ha, Yves Deville, Quang Dung Phamb, Minh Hoàng Hà (2018). On the min-cost Traveling Salesman Problem with Drone. Transportation Research Part C 86 597–621. DOI: https://doi.org/gc49jt
Flytrex (2021). Iceland, AHA. URL: https://flytrex.com/projects/iceland-aha/
Dobi Sándor (2020). Európa pilóta nélküli légi járműveket érintő jogszabályi környezetének áttekintése. Közlekedéstudományi Szemle, 70 (4), pp. 29-42. ISSN 0023-4362. DOI: https://doi.org/gm35
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