AMU-LED Cranfield Flight Trials for Demonstrating the Advanced Air Mobility Concept

Arinc Tutku Altun; Mehmet Hasanzade; Emre Saldiran; Guney Guner; Mevlut Uzun; Rodolphe Fremond; Yiwen Tang; Prithiviraj Bhundoo; Yu Su; Yan Xu; Gokhan Inalhan; Michael W. Hardt; Alejandro Fransoy; Ajay Modha; Jose Antonio Tena; Cesar Nieto; Miguel Vilaplana; Marta Tojal; Victor Gordo; Pablo Menendez; Ana Gonzalez

doi:10.3390/aerospace10090775

AMU-LED Cranfield Flight Trials for Demonstrating the Advanced Air Mobility Concept

Arinc Tutku Altun^*
, Mehmet Hasanzade
, Emre Saldiran
, Guney Guner
, Mevlut Uzun
, Rodolphe Fremond
, Yiwen Tang
, Prithiviraj Bhundoo
, Yu Su
, Yan Xu
, Gokhan Inalhan^*
, Michael W. Hardt
, Alejandro Fransoy
, Ajay Modha
, Jose Antonio Tena
, Cesar Nieto
, Miguel Vilaplana
, Marta Tojal
, Victor Gordo
, Pablo Menendez

Ana Gonzalez

^*Bu çalışma için yazışmadan sorumlu yazar

Cranfield University
Boeing
ANRA Technologies
Airbus Group
Royal Netherlands Aerospace Centre
INECO
Nippon Telegraph & Telephone

Araştırma sonucu: Dergiye katkı › Makale › bilirkişi

9 Atıf (Scopus)

Özet

Advanced Air Mobility (AAM) is a concept that is expected to transform the current air transportation system and provide more flexibility, agility, and accessibility by extending the operations to urban environments. This study focuses on flight test, integration, and analysis considerations for the feasibility of the future AAM concept and showcases the outputs of the Air Mobility Urban-Large Experimental Demonstration (AMU-LED) project demonstrations at Cranfield University. The purpose of the Cranfield demonstrations is to explore the integrated decentralized architecture of the AAM concept with layered airspace structure through various use cases within a co-simulation environment consisting of real and simulated standard-performing vehicle (SPV) and high-performing vehicle (HPV) flights, manned, and general aviation flights. Throughout the real and simulated flights, advanced U-space services are demonstrated and contingency management activities, including emergency operations and landing, are tested within the developed co-simulation environment. Moreover, flight tests are verified and validated through key performance indicator analysis, along with a social acceptance study. Future recommendations on relevant industrial and regulative activities are provided.

Orijinal dil	İngilizce
Makale numarası	775
Dergi	Aerospace
Hacim	10
Basın numarası	9
DOI'lar	https://doi.org/10.3390/aerospace10090775
Yayın durumu	Yayınlandı - Eyl 2023
Harici olarak yayınlandı	Evet

Bibliyografik not

Publisher Copyright:
© 2023 by the authors.

Finansman

This work has been funded by the SESAR JU under grant agreement No. 101017702 as part of the European Union’s Horizon 2020 research and innovation programme: AMU-LED (Air Mobility Urban-Large Experimental Demonstrations).

Finansörler	Finansör numarası
SESAR JU	101017702
Horizon 2020 Framework Programme

BM SKH

Bu sonuç, aşağıdaki Sürdürülebilir Kalkınma Hedefine/Hedeflerine katkıda bulunur

SKH 11 Sürdürülebilir Şehirler ve Topluluklar

Belgeye Erişim

10.3390/aerospace10090775

Diğer Dosyalar ve Linkler

Link to publication in Scopus

Alıntı Yap

Altun, A. T., Hasanzade, M., Saldiran, E., Guner, G., Uzun, M., Fremond, R., Tang, Y., Bhundoo, P., Su, Y., Xu, Y., Inalhan, G., Hardt, M. W., Fransoy, A., Modha, A., Tena, J. A., Nieto, C., Vilaplana, M., Tojal, M., Gordo, V., ... Gonzalez, A. (2023). AMU-LED Cranfield Flight Trials for Demonstrating the Advanced Air Mobility Concept. Aerospace, 10(9), Makale 775. https://doi.org/10.3390/aerospace10090775

@article{75e25475c70548e19b31b99029deb0e1,

title = "AMU-LED Cranfield Flight Trials for Demonstrating the Advanced Air Mobility Concept",

abstract = "Advanced Air Mobility (AAM) is a concept that is expected to transform the current air transportation system and provide more flexibility, agility, and accessibility by extending the operations to urban environments. This study focuses on flight test, integration, and analysis considerations for the feasibility of the future AAM concept and showcases the outputs of the Air Mobility Urban-Large Experimental Demonstration (AMU-LED) project demonstrations at Cranfield University. The purpose of the Cranfield demonstrations is to explore the integrated decentralized architecture of the AAM concept with layered airspace structure through various use cases within a co-simulation environment consisting of real and simulated standard-performing vehicle (SPV) and high-performing vehicle (HPV) flights, manned, and general aviation flights. Throughout the real and simulated flights, advanced U-space services are demonstrated and contingency management activities, including emergency operations and landing, are tested within the developed co-simulation environment. Moreover, flight tests are verified and validated through key performance indicator analysis, along with a social acceptance study. Future recommendations on relevant industrial and regulative activities are provided.",

keywords = "Advanced Air Mobility, U-space, U-space services, UAS, UTM, co-simulation, flight test, urban air mobility",

author = "Altun, \{Arinc Tutku\} and Mehmet Hasanzade and Emre Saldiran and Guney Guner and Mevlut Uzun and Rodolphe Fremond and Yiwen Tang and Prithiviraj Bhundoo and Yu Su and Yan Xu and Gokhan Inalhan and Hardt, \{Michael W.\} and Alejandro Fransoy and Ajay Modha and Tena, \{Jose Antonio\} and Cesar Nieto and Miguel Vilaplana and Marta Tojal and Victor Gordo and Pablo Menendez and Ana Gonzalez",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = sep,

doi = "10.3390/aerospace10090775",

language = "English",

volume = "10",

journal = "Aerospace",

issn = "2226-4310",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "9",

}

Altun, AT, Hasanzade, M, Saldiran, E, Guner, G, Uzun, M, Fremond, R, Tang, Y, Bhundoo, P, Su, Y, Xu, Y, Inalhan, G, Hardt, MW, Fransoy, A, Modha, A, Tena, JA, Nieto, C, Vilaplana, M, Tojal, M, Gordo, V, Menendez, P & Gonzalez, A 2023, 'AMU-LED Cranfield Flight Trials for Demonstrating the Advanced Air Mobility Concept', Aerospace, hac. 10, no. 9, 775. https://doi.org/10.3390/aerospace10090775

TY - JOUR

T1 - AMU-LED Cranfield Flight Trials for Demonstrating the Advanced Air Mobility Concept

AU - Altun, Arinc Tutku

AU - Hasanzade, Mehmet

AU - Saldiran, Emre

AU - Guner, Guney

AU - Uzun, Mevlut

AU - Fremond, Rodolphe

AU - Tang, Yiwen

AU - Bhundoo, Prithiviraj

AU - Su, Yu

AU - Xu, Yan

AU - Inalhan, Gokhan

AU - Hardt, Michael W.

AU - Fransoy, Alejandro

AU - Modha, Ajay

AU - Tena, Jose Antonio

AU - Nieto, Cesar

AU - Vilaplana, Miguel

AU - Tojal, Marta

AU - Gordo, Victor

AU - Menendez, Pablo

AU - Gonzalez, Ana

PY - 2023/9

Y1 - 2023/9

N2 - Advanced Air Mobility (AAM) is a concept that is expected to transform the current air transportation system and provide more flexibility, agility, and accessibility by extending the operations to urban environments. This study focuses on flight test, integration, and analysis considerations for the feasibility of the future AAM concept and showcases the outputs of the Air Mobility Urban-Large Experimental Demonstration (AMU-LED) project demonstrations at Cranfield University. The purpose of the Cranfield demonstrations is to explore the integrated decentralized architecture of the AAM concept with layered airspace structure through various use cases within a co-simulation environment consisting of real and simulated standard-performing vehicle (SPV) and high-performing vehicle (HPV) flights, manned, and general aviation flights. Throughout the real and simulated flights, advanced U-space services are demonstrated and contingency management activities, including emergency operations and landing, are tested within the developed co-simulation environment. Moreover, flight tests are verified and validated through key performance indicator analysis, along with a social acceptance study. Future recommendations on relevant industrial and regulative activities are provided.

AB - Advanced Air Mobility (AAM) is a concept that is expected to transform the current air transportation system and provide more flexibility, agility, and accessibility by extending the operations to urban environments. This study focuses on flight test, integration, and analysis considerations for the feasibility of the future AAM concept and showcases the outputs of the Air Mobility Urban-Large Experimental Demonstration (AMU-LED) project demonstrations at Cranfield University. The purpose of the Cranfield demonstrations is to explore the integrated decentralized architecture of the AAM concept with layered airspace structure through various use cases within a co-simulation environment consisting of real and simulated standard-performing vehicle (SPV) and high-performing vehicle (HPV) flights, manned, and general aviation flights. Throughout the real and simulated flights, advanced U-space services are demonstrated and contingency management activities, including emergency operations and landing, are tested within the developed co-simulation environment. Moreover, flight tests are verified and validated through key performance indicator analysis, along with a social acceptance study. Future recommendations on relevant industrial and regulative activities are provided.

KW - Advanced Air Mobility

KW - U-space

KW - U-space services

KW - UAS

KW - UTM

KW - co-simulation

KW - flight test

KW - urban air mobility

UR - https://www.scopus.com/pages/publications/85172125824

U2 - 10.3390/aerospace10090775

DO - 10.3390/aerospace10090775

M3 - Article

AN - SCOPUS:85172125824

SN - 2226-4310

VL - 10

JO - Aerospace

JF - Aerospace

IS - 9

M1 - 775

ER -

AMU-LED Cranfield Flight Trials for Demonstrating the Advanced Air Mobility Concept

Özet

Bibliyografik not

Finansman

BM SKH

Belgeye Erişim

Diğer Dosyalar ve Linkler

Parmak izi

Alıntı Yap