终端区航空器三维实时监视系统仿真

doi:10.7527/S1000-6893.2022.27598

Abstract

Abstract:

Considering the non-intuitive description of information of the traditional aircraft 2D real-time surveillance system in the airport terminal area and the poor man-machine interaction function， a simulation scheme of the aircraft 3D real-time surveillance system in the terminal area is proposed based on Automatic Dependent Surveillance-Broadcast （ADS-B） data. The real-time data stream transmission mechanism is constructed based on Socket and multi-thread technology to carry out data interaction between virtual and real systems in the way of wireless transmission， which overcomes the limitation of data transmission range of traditional ADS-B receiver and improves the flexibility of ADS-B data usage. Virtual simulation of the monitoring system is realized through the virtual reality technology. On account of the track breakpoints and corner points in the simulation process， an interpolation method that combines the course-time information in the data with the Bezier curve is proposed. On the premise of system real-time performance， track interpolation is carried out at the breakpoint and corner point to realize smooth display of the track. The results show that the proposed method can improve the smoothness of the aircraft trajectory in the system while ensuring real-time performance of the system.

Key words: system simulation, automatic dependent surveillance-broadcast (ADS-B), virtual reality, trajectory interpolation, smooth trajectory

CLC Number:

V351

Xiaoyun SHEN, Shuo ZHANG, Siyuan ZHANG. Simulation of 3D real-time monitoring system of aircraft in terminal area[J]. Acta Aeronautica et Astronautica Sinica, 2023, 44(S1): 727598-727598.

Figures/Tables 14

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References 21

1	李沂霖. 基于ADS-B飞行监控的仿真与实现［D］. 哈尔滨：哈尔滨工程大学， 2018.
	LI Y L. Simulation and implementation of flight monitoring based on ADS-B［D］. Harbin： Harbin Engineering University， 2018 （in Chinese）.
2	CHEN Y K， ZHOU L H. Vulnerabilities in ADS-B and verification method［C］∥2020 IEEE 2nd International Conference on Civil Aviation Safety and Information Technology （ICCASIT）. Piscataway： IEEE Press， 2020： 90-94.
3	VARGA M， POLGÁR Z A， HEDEŞIU H. ADS-B based real-time air traffic monitoring system［C］∥2015 38th International Conference on Telecommunications and Signal Processing （TSP）. Piscataway： IEEE Press， 2015： 215-219.
4	ISWARI N M S， ASTAWA I M. Development of human-machine interface system for flight monitoring using ADS-B data and openmap［C］∥2018 Joint 10th International Conference on Soft Computing and Intelligent Systems （SCIS） and 19th International Symposium on Advanced Intelligent Systems （ISIS）. Piscataway： IEEE Press， 2018： 518-523.
5	王尔申，丛笑林. 基于ADS-B IN的通航飞机飞行态势监视终端系统研究［J］. 电光与控制， 2020， 27（5）： 1-4.
	WANG E S， CONG X L. On ADS-B IN based flight situation monitoring terminal system for general-aviation aircraft［J］. Electronics Optics & Control， 2020， 27（5）： 1-4 （in Chinese）.
6	WANG Y， ZHOU Z N， ZHOU P L， et al. Research on virtual assembly simulation system for aircraft flight control system based on Unity3D［J］. IOP Conference Series： Materials Science and Engineering， 2020， 887（1）： 012034.
7	XIA L Y， LU J F， ZHANG C L， et al. Development and application of workshop virtual monitoring system based on unity［C］∥2019 IEEE 8th Data Driven Control and Learning Systems Conference （DDCLS）. Piscataway： IEEE Press， 2019： 928-933.
8	WANG L B， GE J Y， LI P C， et al. Research on UE4 - based visualization simulation of underwater vehicle polar region sailing［J］. Journal of Physics： Conference Series， 2021， 1813（1）： 012003.
9	沈笑云，唐鹏，张思远，等. ADS-B统计数据的位置导航不确定类别质量分析［J］. 航空学报， 2015， 36（9）： 3128-3136.
	SHEN X Y， TANG P， ZHANG S Y， et al. Quality analysis of navigation uncertain category for position based on ADS-B statistical data［J］. Acta Aeronautica et Astronautica Sinica， 2015， 36（9）： 3128-3136 （in Chinese）.
10	张思远，郑佳雪，沈笑云，等. ADS-B空中位置数据异常检测与统计分析［J］. 电光与控制， 2022， 29（4）： 101-105.
	ZHANG S Y， ZHENG J X， SHEN X Y， et al. Anomaly detection of ADS-B air position data and statistical analysis［J］. Electronics Optics & Control， 2022， 29（4）： 101-105 （in Chinese）.
11	陈成，何玉庆，卜春光，等. 基于四阶贝塞尔曲线的无人车可行轨迹规划［J］. 自动化学报， 2015， 41（3）： 486-496.
	CHEN C， HE Y Q， BU C G， et al. Feasible trajectory generation for autonomous vehicles based on quartic Bézier curve［J］. Acta Automatica Sinica， 2015， 41（3）： 486-496 （in Chinese）.
12	DONG W G， BI N. Research of the correction scheme based on GPS coordinate transformation model［C］∥ 2011 IEEE 3rd International Conference on Communication Software and Networks. Piscataway： IEEE Press， 2011： 356-358.
13	顾华奇，梅承华，廖明伟. SuperMap平台下综合地理信息保障云服务系统建设［J］. 测绘通报， 2018（5）： 141-146.
	GU H Q， MEI C H， LIAO M W. The construction of integrated geographic information support cloud service system based on SuperMap［J］. Bulletin of Surveying and Mapping， 2018（5）： 141-146 （in Chinese）.
14	王志家. 基于WorldWind的三维GIS技术在气象保障中的应用研究［D］. 长沙：国防科技大学， 2020.
	WANG Z J. Application study of 3D GIS for meteorological support based on WorldWind［D］. Changsha： National University of Defense Technology， 2020 （in Chinese）.
15	GROPP W D. Using node and socket information to implement MPI Cartesian topologies［J］. Parallel Computing， 2019， 85： 98-108.
16	DYMORA P， MAZUREK M. Anomaly detection in IoT communication network based on spectral analysis and Hurst exponent［J］. Applied Sciences， 2019， 9（24）： 5319.
17	王超，纪永刚，黎明，等. 一种考虑船舶航速航向的AIS航迹插值方法［J］. 舰船科学技术， 2015， 37（4）： 60-64.
	WANG C， JI Y G， LI M， et al. An AIS track interpolation method considering the vessel’s speed and course［J］. Ship Science and Technology， 2015， 37（4）： 60-64 （in Chinese）.
18	DU H R， XIAO Y A， DUAN L Y， et al. An algorithm for vessel’s missing trajectory restoration based on polynomial interpolation［C］∥2017 4th International Conference on Transportation Information and Safety （ICTIS）. Piscataway： IEEE Press， 2017： 825-830.
19	CARDOSO L H F， AMVAME N G D， DE SOUSA R T， et al. ADS-B system exploitation： analysis of the impact on the decision-making process of air traffic controllers through of the GRSO method［C］∥2020 15th Iberian Conference on Information Systems and Technologies （CISTI）. Piscataway： IEEE Press， 2020： 1-8.
20	张婷. 人机交互界面设计在产品可用性中的应用研究［J］. 包装工程， 2014， 35（20）： 63-66.
	ZHANG T. The application of human-computer interaction interface design in the product availability［J］. Packaging Engineering， 2014， 35（20）： 63-66 （in Chinese）.
21	LIU Y N. Human-computer interface design based on design psychology［C］∥2020 International Conference on Intelligent Computing and Human-Computer Interaction （ICHCI）. Piscataway： IEEE Press， 2020： 5-9.

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Simulation of 3D real-time monitoring system of aircraft in terminal area

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