基于QAR数据的塔台特情三维呈现及空管应急方法研究
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摘要
航空器起降阶段是整个飞行运行中最危险的阶段,随着飞行流量不断增大以及多跑道的运行实施,航空器在起降阶段的事故发生率也不断上升,对安全起降负有重要责任的塔台管制人员面临了更严峻的挑战。在此情况下,设计一种塔台特情视景仿真是有效的研究工具,可以培养管制员进行应急处置的模拟。本文利用塔台范围内航空器飞行动力学模型以及飞机机载快速存储装置QAR三维动态数据拟合函数构建了仿真模型,开发了基于MFC的Vega Prime塔台特情视景仿真应用程序。
QAR记录了航空器飞行性能各种参数,目前主要应用于事故调查和航空公司飞行品质监控中。本文提取了航空器起降阶段典型QAR数据进行拟合分析,运用Matlab建立了塔台范围内民航飞机三维运动模型,以现有的模型为基础,进行修改和简化,证明其可以较好地再现塔台范围内民航飞机三维运动实际姿态和轨迹,该模型简化了运算过程,提高了仿真效率。
本文深入研究了基于Vega Prime的视景仿真驱动技术,编写了基于MFC的VegaPrime应用程序,将前期建立的Creator三维模型及地形数据库载入关联配置软件中,加入基于QAR数据拟合后的模型,运用Vega Prime和Visual Studio2005相结合的方式进行应用程序开发,实现了主要塔台范围内飞行特情的视景仿真,可用于构建完整的塔台模拟系统,具有一定的理论和应用意义。
本文最后在塔台特情仿真系统的基础上,结合现有的应急程序,初步提出了一系列典型特情下管制员的应急处置方案,可用于特情再现、培训和实际机场塔台的应急指挥程序的后续开发,具有一定的实用价值。
With increasing air traffic flow and multi-runway operation implemented, the accidentrate of aircraft taking off and landing phase is also rising, the ATCs who take importantresponsibility of the safe take off and landing face more severe challenges. In this case, todesign an effective tool of tower special visual simulation can train the controllers foremergency response. In this paper, the tower within the aircraft flight dynamics model andQAR 3D dynamic data fitting function to build a simulation model, to development the VegaPrime Tower special situations based-MFC visual simulation applications.
QAR records various parameters of aircraft flight performance, mainly used in accidentinvestigation and Flight Operations Quality Assurance. Extracted from the aircraft taking offand landing phase of a typical QAR data to fit analysis, use Matlab to create three-dimensionalmotion aircraft model in the tower range, and flight dynamics model to prove that it canreproduce the tower range three-dimensional movement of civil aircraft attitude and trajectory,the model simplifies the computational process, to improve the simulation efficiency.
This article studies the Vega Prime-based visual simulation-driven technology,programmed a Vega Prime application based on MFC, loaded the early establishment of theCreator 3D model and terrain database to the associated configuration software, adding themodel based on the QAR data, afterward used the Vega Prime and Visual Studio2005combination of application development, to achieve visual simulation of the special flight inthe main tower range, it can be used to build the tower simulation system, and has a certaintheoretical significance.
Finally, for the tower special circumstances simulation system, combined with theexisting emergency procedures, initially proposed a series of typical special situationscontingency plan for controllers can be used for the subsequent development of specialsituations reproduction, training and the actual airport tower's emergency commandprocedures, has some practical value.
QAR记录了航空器飞行性能各种参数,目前主要应用于事故调查和航空公司飞行品质监控中。本文提取了航空器起降阶段典型QAR数据进行拟合分析,运用Matlab建立了塔台范围内民航飞机三维运动模型,以现有的模型为基础,进行修改和简化,证明其可以较好地再现塔台范围内民航飞机三维运动实际姿态和轨迹,该模型简化了运算过程,提高了仿真效率。
本文深入研究了基于Vega Prime的视景仿真驱动技术,编写了基于MFC的VegaPrime应用程序,将前期建立的Creator三维模型及地形数据库载入关联配置软件中,加入基于QAR数据拟合后的模型,运用Vega Prime和Visual Studio2005相结合的方式进行应用程序开发,实现了主要塔台范围内飞行特情的视景仿真,可用于构建完整的塔台模拟系统,具有一定的理论和应用意义。
本文最后在塔台特情仿真系统的基础上,结合现有的应急程序,初步提出了一系列典型特情下管制员的应急处置方案,可用于特情再现、培训和实际机场塔台的应急指挥程序的后续开发,具有一定的实用价值。
With increasing air traffic flow and multi-runway operation implemented, the accidentrate of aircraft taking off and landing phase is also rising, the ATCs who take importantresponsibility of the safe take off and landing face more severe challenges. In this case, todesign an effective tool of tower special visual simulation can train the controllers foremergency response. In this paper, the tower within the aircraft flight dynamics model andQAR 3D dynamic data fitting function to build a simulation model, to development the VegaPrime Tower special situations based-MFC visual simulation applications.
QAR records various parameters of aircraft flight performance, mainly used in accidentinvestigation and Flight Operations Quality Assurance. Extracted from the aircraft taking offand landing phase of a typical QAR data to fit analysis, use Matlab to create three-dimensionalmotion aircraft model in the tower range, and flight dynamics model to prove that it canreproduce the tower range three-dimensional movement of civil aircraft attitude and trajectory,the model simplifies the computational process, to improve the simulation efficiency.
This article studies the Vega Prime-based visual simulation-driven technology,programmed a Vega Prime application based on MFC, loaded the early establishment of theCreator 3D model and terrain database to the associated configuration software, adding themodel based on the QAR data, afterward used the Vega Prime and Visual Studio2005combination of application development, to achieve visual simulation of the special flight inthe main tower range, it can be used to build the tower simulation system, and has a certaintheoretical significance.
Finally, for the tower special circumstances simulation system, combined with theexisting emergency procedures, initially proposed a series of typical special situationscontingency plan for controllers can be used for the subsequent development of specialsituations reproduction, training and the actual airport tower's emergency commandprocedures, has some practical value.
引文
[1]黄和龙.提高管制员防冲突应变能力浅析[J].空中交通管理2010.7:14-16
[2]向星.空管模拟机操作员的基本素质与实际操作[J].民航飞行与安全1999,5(1):41-43
[3]David M.Bourg. Physics for Game Developers[M].0'Reilly&Associates Inc,2002:171一175
[4]张毅,王土星等.仿真系统分析与设计[M].北京:国防工业出版社,2010
[5]中国民用航空局飞行标准司,飞行品质监控实施与管理[OL],http://www.caac.gov.cn/p1/201104/P020110418572411094812.pdf
[6]NASA AMES research center. APMS OVERVIEW[EB/OL].http://apms.arc.nasa.gov/,2007-12-04
[7]Flightscape Inc. Cranfield University Chooses Flightscape Software Tools for Flight Data AnalysisResearch[EB/OL].http://www.flightscape.com/about/details.php?au=pr&sub=2004&det=cranfield.htm,2004-11-23
[8]Scientific Monitoring Inc.I-TrendIntroduction[EB/OL].http://www.scientificmonitoring.com.2007-10-10
[9]周百政.QAR数据处理系统的设计与实现[D].天津:中国民航大学,2009
[10]童中翔,王晓东.飞行仿真技术的发展与展望[J].飞行力学,2002,20(3):5-6
[11]黄海峰.对地观测小卫星视景仿真系统研究[J].中国科学院空间科学与应用研究中心,2005
[12]赵沁平,沈旭昆等.DVENET:一个分布式虚拟环境,计算机研究与发展,1998,35(12):1064-1065
[13]王小宛,张永顺,邢万红等.航线飞行工程学[M].北京:北京航空航天大学出版社,2005
[14]陈延楠.飞机飞行性能品质与控制[M].北京:国防工业出版社,2007
[15]方振平,陈万春,张曙光.航空飞行器飞行动力学[M].北京:北京航空航天大学出版社,2005
[16]刘晓明,苏彬等.飞行性能与计划[M].成都:西南交通大学出版社.2006.18-71
[17]宋花玉,郑汝海.军用飞机继续起飞决断速度计算方法[J].空军工程大学学报(自然科学版).2007(5):5-8
[18]卢惠民.飞行仿真数学建模与实践[M].北京:航空工业出版社.2007
[19]薛宏涛等.作战飞机武器投放战术机动飞行性能分析与计算[J].指挥控制与仿真2010.32(5)
[20]李春科.电视制导微型导弹制导律设计与仿真[J].科学技术与工程2011.11(21)
[21]任倩倩等.终端区四维飞行航迹的计算[J].中国民航飞行学院学报2008.4
[22]李斌,王群宁.飞行品质监控的基础-记录参数解析.
[23]B737-800使用手册.深圳航空公司.2000.9.29
[24]孙同江.飞行数据的应用研究[D].南京:南京航空航天大学,2003
[25]薛毅.数值分析[M].北京:北京工业大学出版社,2005
[26]曾鑫.可视化仿真技术设计与实现[J].黑龙江科技信息2008.36
[27]王乘,李利军.Creator可视化仿真建模技术[M].武汉:华中科技大学出版社,2006
[28]孙崇波等.基于Creator/Vega Prime的虚拟航母漫游设计[J].计算机仿真2007.1
[29]商蕾.船舶轮机模拟器辅助教学方法研究[J].钦州学院学报2011.26(3)
[30]李明等.基于Creator/Vega Prime的单件生产系统虚拟现实仿真[J].计算机技术与发展2011.21(1)
[31]王乘,周均清等.Vega实时三维视景仿真技术[M].武汉:华中科技大学出版社,2005
[32]黄国兴,周勇.软件需求工程[M].北京:清华大学出版社,2008
[33]王连峰.我国民航政府应急管理工作初探[J].民航管理2005.10
[34]欧阳志宏,董霖等.MFC程序设计轻松入门[M].北京:人民邮电出版社,2009
[35] Federal Aviation Administration. Flight Operational Quality Assurance[EB/OL].http://www.faa.gov/about/initiatives/atos/air_carrier/foqa/
[36] Flight Data Recorder Read-Out Technical and Regulatory Aspects.FDR Read-out Study[EB/OL].http://www.bea.aero/etudes/use.of.fdr/use.of.fdr.pdf2005.5
[37] H. Haverdings and P.W. Chan.Quick Access Recorder (QAR) Data Analysis Software for Windshearand Turbulence Studies[J].1st AIAA Atmospheric and Space Environments Conference,22-25 June 2009
[38]晋萍,聂宏.起落架着陆动态仿真分析模型及参数优化设计[J].南京航空航天大学学报2003.35(5):498-502
[39]曹全新,严林芳,刘永超.民用飞机飞行仿真系统研究[J].测控技术2009.28(7):102-107
[40] Li Weigang a, Marcos Vinicius Pinheiro Dib b, Daniela Pereira Alves c,Antonio Marcio FerreiraCrespo d.Intelligent computing methods in Air Traffic Flow Management[J].Transportation Research PartC2009.6(4):1-12
[41]顾科勇.论如何建立和完善机场应急救援工作程序[J].空中交通管理2003.1:50-52
[42]罗帆,平芸,甘相田.民航灾害应急救援组织体系与联动程序探讨[J].中国科学管理2006.14(10):801-805
[2]向星.空管模拟机操作员的基本素质与实际操作[J].民航飞行与安全1999,5(1):41-43
[3]David M.Bourg. Physics for Game Developers[M].0'Reilly&Associates Inc,2002:171一175
[4]张毅,王土星等.仿真系统分析与设计[M].北京:国防工业出版社,2010
[5]中国民用航空局飞行标准司,飞行品质监控实施与管理[OL],http://www.caac.gov.cn/p1/201104/P020110418572411094812.pdf
[6]NASA AMES research center. APMS OVERVIEW[EB/OL].http://apms.arc.nasa.gov/,2007-12-04
[7]Flightscape Inc. Cranfield University Chooses Flightscape Software Tools for Flight Data AnalysisResearch[EB/OL].http://www.flightscape.com/about/details.php?au=pr&sub=2004&det=cranfield.htm,2004-11-23
[8]Scientific Monitoring Inc.I-TrendIntroduction[EB/OL].http://www.scientificmonitoring.com.2007-10-10
[9]周百政.QAR数据处理系统的设计与实现[D].天津:中国民航大学,2009
[10]童中翔,王晓东.飞行仿真技术的发展与展望[J].飞行力学,2002,20(3):5-6
[11]黄海峰.对地观测小卫星视景仿真系统研究[J].中国科学院空间科学与应用研究中心,2005
[12]赵沁平,沈旭昆等.DVENET:一个分布式虚拟环境,计算机研究与发展,1998,35(12):1064-1065
[13]王小宛,张永顺,邢万红等.航线飞行工程学[M].北京:北京航空航天大学出版社,2005
[14]陈延楠.飞机飞行性能品质与控制[M].北京:国防工业出版社,2007
[15]方振平,陈万春,张曙光.航空飞行器飞行动力学[M].北京:北京航空航天大学出版社,2005
[16]刘晓明,苏彬等.飞行性能与计划[M].成都:西南交通大学出版社.2006.18-71
[17]宋花玉,郑汝海.军用飞机继续起飞决断速度计算方法[J].空军工程大学学报(自然科学版).2007(5):5-8
[18]卢惠民.飞行仿真数学建模与实践[M].北京:航空工业出版社.2007
[19]薛宏涛等.作战飞机武器投放战术机动飞行性能分析与计算[J].指挥控制与仿真2010.32(5)
[20]李春科.电视制导微型导弹制导律设计与仿真[J].科学技术与工程2011.11(21)
[21]任倩倩等.终端区四维飞行航迹的计算[J].中国民航飞行学院学报2008.4
[22]李斌,王群宁.飞行品质监控的基础-记录参数解析.
[23]B737-800使用手册.深圳航空公司.2000.9.29
[24]孙同江.飞行数据的应用研究[D].南京:南京航空航天大学,2003
[25]薛毅.数值分析[M].北京:北京工业大学出版社,2005
[26]曾鑫.可视化仿真技术设计与实现[J].黑龙江科技信息2008.36
[27]王乘,李利军.Creator可视化仿真建模技术[M].武汉:华中科技大学出版社,2006
[28]孙崇波等.基于Creator/Vega Prime的虚拟航母漫游设计[J].计算机仿真2007.1
[29]商蕾.船舶轮机模拟器辅助教学方法研究[J].钦州学院学报2011.26(3)
[30]李明等.基于Creator/Vega Prime的单件生产系统虚拟现实仿真[J].计算机技术与发展2011.21(1)
[31]王乘,周均清等.Vega实时三维视景仿真技术[M].武汉:华中科技大学出版社,2005
[32]黄国兴,周勇.软件需求工程[M].北京:清华大学出版社,2008
[33]王连峰.我国民航政府应急管理工作初探[J].民航管理2005.10
[34]欧阳志宏,董霖等.MFC程序设计轻松入门[M].北京:人民邮电出版社,2009
[35] Federal Aviation Administration. Flight Operational Quality Assurance[EB/OL].http://www.faa.gov/about/initiatives/atos/air_carrier/foqa/
[36] Flight Data Recorder Read-Out Technical and Regulatory Aspects.FDR Read-out Study[EB/OL].http://www.bea.aero/etudes/use.of.fdr/use.of.fdr.pdf2005.5
[37] H. Haverdings and P.W. Chan.Quick Access Recorder (QAR) Data Analysis Software for Windshearand Turbulence Studies[J].1st AIAA Atmospheric and Space Environments Conference,22-25 June 2009
[38]晋萍,聂宏.起落架着陆动态仿真分析模型及参数优化设计[J].南京航空航天大学学报2003.35(5):498-502
[39]曹全新,严林芳,刘永超.民用飞机飞行仿真系统研究[J].测控技术2009.28(7):102-107
[40] Li Weigang a, Marcos Vinicius Pinheiro Dib b, Daniela Pereira Alves c,Antonio Marcio FerreiraCrespo d.Intelligent computing methods in Air Traffic Flow Management[J].Transportation Research PartC2009.6(4):1-12
[41]顾科勇.论如何建立和完善机场应急救援工作程序[J].空中交通管理2003.1:50-52
[42]罗帆,平芸,甘相田.民航灾害应急救援组织体系与联动程序探讨[J].中国科学管理2006.14(10):801-805