Architecture of a microservice-based flight management system simulation

doi:10.16511/j.cnki.qhdxxb.2019.26.043

Abstract
Figures/Tables
References
Related Articles
Metrics

Download: PDF(4454 KB)
Export: BibTeX | EndNote | Reference Manager | ProCite | RefWorks

Abstract Modern flight management systems (FMS) are large multi-profession products that are the core of trajectory-based operations (TBO) and the next generation air traffic management systems that have cost and complexity barriers. This study presents a flexible, scalable distributed simulation system for product design, testing, verification, and evaluation. The distributed simulation architecture is based on a service-oriented architecture (SOA), cloud computing and microservice with simulation unit service, simulation orchestration, simulation process monitoring and control. A prototype was implemented with simulation results for an FMS system. The simulation components are encapsulated as microservices or accessed through agents and brokers, and the various FMS system frameworks and simulation tasks can be configured through the simulation orchestration. The FMS product simulation illustrates the system effectiveness and flexibility.

Keywords microservice cloud computing service-oriented architecture flight management system collaborative simulation

Issue Date: 04 June 2020

	Service

	E-mail this article
	E-mail Alert
	RSS
	Articles by authors

	LI Qing
	FAN Yiping
	LI Dachuan
	JIANG Xin
	LIU Enyu
	CHEN Jia

Cite this article:

LI Qing,FAN Yiping,LI Dachuan, et al. Architecture of a microservice-based flight management system simulation[J]. Journal of Tsinghua University(Science and Technology), 2020, 60(7): 589-596.

URL:

http://jst.tsinghuajournals.com/EN/10.16511/j.cnki.qhdxxb.2019.26.043 OR http://jst.tsinghuajournals.com/EN/Y2020/V60/I7/589

[1] MILLER D C, THORPE J A. SIMNET:The advent of simulator networking[J]. Proceedings of the IEEE, 1995, 83(8):1114-1123.
[2] HOFER R C, LOPER M L. DIS today distributed interactive simulation[J]. Proceedings of the IEEE, 1995, 83(8):1124-1137.
[3] WILSON A L, WEATHERLY R M. The aggregate level simulation protocol:An evolving system[C]//Proceedings of Winter Simulation Conference. Lake Buena Vista, USA:IEEE, 1994:781-787.
[4] KUHL F, WEATHERLY R, DAHMANN J. Creating computer simulations:An introduction to the high level architecture[M]. Upper Saddle River:Prentice Hall PTR, 1999.
[5] ANG J, ARSANJANI A, CHUA S, et al. Patterns:Service-oriented architecture and web services[M]. Armonk:IBM Corporation, 2004.
[6] MILLER M. Cloud computing:Web-based applications that change the way you work and collaborate online[M]. Indianapolis:Que Publishing Company, 2008.
[7] TAN J T C, INAMURA T. Sigverse-a cloud computing architecture simulation platform for social human-robot interaction[C]//2012 IEEE International Robotics and Automation. Saint Paul, USA:IEEE, 2012:1310-1315.
[8] DORIYA R, CHAKRABORTY P, NANDI G C. Robot-Cloud:A framework to assist heterogeneous low cost robots[C]//Robotics & Artificial Intelligence Laboratory, Indian Institute of Information Technology, International Conference on Communication, Information & Computing Technology. Mumbai, India, 2012.
[9] SCHIKUTA E, MANN E. A cloud-based neural network simulation environment[C]//International Work-Conference on Artificial Neural Networks. Tenerife, Spain:Springer, 2013.
[10] ROSSETTI M D, CHEN Y H. A cloud computing architecture for supply chain network simulation[C]//Proceedings of the 2012 Winter Simulation Conference. Berlin, Germany:IEEE, 2012.
[11] 程农, 拓朴筠, 李清, 等. 新航行体系下大型客机飞行管理系统关键技术研究与仿真验证[J]. 中国科学:技术科学, 2018, 48(3):264-276.CHENG N, TUO P Y, LI Q, et al. Research and simulation on key technologies of airliner's flight management system under next-generation navigation system[J]. SCIENTIA SINICA Technologica, 2018, 48(3):264-276. (in Chinese)
[12] REN L L, HO N T, CLARKE J P. Workstation based fast-time aircraft simulator for noise abatement approach procedure study[C]//AIAA 4th Aviation Technology, Integration and Operations. Chicago, USA:AIAA, 2004.
[13] CHUNG V, HUTCHINSON B. A unique software system for simulation-to-flight research[C]//2001 AIAA Modelling and Simulation Technologies Conference and Exbibit. Montreal, Canada:AIAA, 2001.
[14] ELMER K, WAT J, GERSHZOHN G, et al. A study of noise abatement procedures using ames B747-400 flight simulator[C]//8th AIAA/CEAS Aeroacoustics Conference & Exhlbit. Breckenridge, USA:AIAA, 2002.
[15] LI Q, WANG Z Y, LI W H, et al. Applications integration in a hybrid cloud computing environment:Modelling and platform[J]. Enterprise Information Systems, 2013, 7(3):237-271.

[1]	WANG Liping, SHI Huijie, WANG Dong. Clustering and selection method of microservices for intelligent manufacturing[J]. Journal of Tsinghua University(Science and Technology), 2024, 64(1): 109-116.
[2]	CAO Laicheng, LI Yuntao, WU Rong, GUO Xian, FENG Tao. Multi-key privacy protection decision tree evaluation scheme[J]. Journal of Tsinghua University(Science and Technology), 2022, 62(5): 862-870.
[3]	WANG Kai, LIU Ronghua, WEI Jiahua, LIU Qi, WANG Guangqian. Model integration methods in the hydro-modeling platform (HydroMP) based on cloud computing[J]. Journal of Tsinghua University(Science and Technology), 2019, 59(12): 1006-1015.
[4]	LI Taoshen, LIU Qing, HUANG Ruwei. Multi-user fully homomorphic encryption scheme based on proxy re-encryption for cloud computing[J]. Journal of Tsinghua University(Science and Technology), 2018, 58(2): 143-149.
[5]	LIU Jinzhao, ZHOU Yuezhi, ZHANG Yaoxue. Wavelet-based approach for anomaly detection of online services in cloud computing systems[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(5): 550-554.
[6]	LI Yu, ZHAO Yong, GUO Xiaodong, LIU Guole. An assurance model for accesscontrol on cloud computing systems[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(4): 432-436.
[7]	WANG Yuding, YANG Jiahai. Data access control model based on data's role and attributes for cloud computing[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(11): 1150-1158.
[8]	LIU Yang, WEI Wei. Fast Nash bargaining algorithm for resource scheduling problems with a large number of media streaming channels[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(10): 1056-1062.
[9]	Ronghua LIU, Jiahua WEI, Yanzhang WENG, Guangqian WANG, Shuang TANG. HydroMP: A cloud computing based platform for hydraulic modeling and simulation service[J]. Journal of Tsinghua University(Science and Technology), 2014, 54(5): 575-583.
[10]	Zhihua WANG, Haibo PANG, Zhanbo LI. Access control for Hadoop-based cloud computing[J]. Journal of Tsinghua University(Science and Technology), 2014, 54(1): 53-59.

Viewed

Full text

Abstract

Cited

Shared

Discussed