機場跑道容量推估與延誤分析模式之研究__臺灣人文及社會科學引文索引資料庫

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題名：	機場跑道容量推估與延誤分析模式之研究
作者：	李穗玲
作者(外文)：	Sui-Ling Li
校院名稱：	國立交通大學
系所名稱：	交通運輸研究所
指導教授：	汪進財
學位類別：	博士
出版日期：	2001
主題關鍵詞：	機場容量；航機隔離；技術性延誤；班表系統延誤；靜態最佳化模式；先到先服務法則；到達航機優先法則；數學規劃；Airport capacity；Aircraft separation；Technical delay；Scheduled system delay；Satic optimization model；First in first serve rule；Arrival priority rule；Mathematical programming
原始連結：	連回原系統網址
相關次數：	被引用次數:期刊(1) 博士論文(0) 專書(0) 專書論文(0) 排除自我引用:1 共同引用:0 點閱:0

機場跑道容量推估為進行機場流量管理之基礎，其是否精確對流量管理之成效影響至鉅。其次，機場班機起降延誤程度不但影響旅客及航空公司之服務品質，更是機場流量管理績效好壞之重要指標。因此，本文之研究目的有四：1.發展跑道容量推估模式以評估目前跑道之容量是否有充份使用。2.釐清航機延誤之意義與衡量方式，發展一套有效的延誤分析模式，以便能反應流量管理績效優劣，並以此績效有效管理航機之起降運作。3.排除機場容量限制所產生的延誤，公平評估航空公司班機準點績效。4.作為班表規劃/檢核、剩餘容量使用之研究基礎與參考。
首先，基於機場運作安全與效率之原則，就松山機場航機起降時間資料，篩選出適宜分析的樣本組數，進行不同航機起降型態所對應航機隔離間距之統計分析，並以此推估之隔離間距值，運用數學規劃方式，考慮現況航機起降需求，予以求解最佳之起降型態組合及相對應之機場容量。本研究所推估之跑道容量除可作為天候良好狀況下，現有跑道可允許起降架次之依據外，並可作為機場流量管理中航機隔離間距之參考，同時亦可提供機場時間帶安排策略之參考。
其次，在釐清延誤之意義及衡量方式，除引入技術性延誤與班表系統擴散性延誤來衡量流量管理績效外，並在考量跑道及進離場航路容量的限制下，藉由數學規劃方式構建一理論性的靜態最佳化延誤分析模式。透過模擬不同服務法則來應證本延誤分析模型於流量管理績效評估之適用性。就本研究之樣本結果顯示，對於每架航機之延誤而言，理論模式會較先到先服務法則高估0.71~1.1分鐘；與到達航機優先服務法則相較，理論模式可能低估或高估，其值介於-0.11~0.24分鐘之間，由於最佳化模式之理論值與先到先服務及到達航機優先服務法則所模擬之結果間具有相當高之相關性，經由迴歸分析，以最佳化模式所分析之延誤進行先到先服務及到達航機優先法則下總延誤之推估，結果顯示預測值全數皆落在95%信賴區間，預測能力相當良好。
至於本研究所提之班機準點績效之評估方式，考量機場管理單位在實施流量管制或因機場容量限制下，各機場各時點所能提供服務水準等級的差異，以排除航機實際延誤所承擔之技術性延誤的影響，由實例個案顯示此種評估方式不但可以免除航空公司不因其總班次數多寡而影響其準點衡量上之公平性，更可明顯反映出該航空公司本身之作業績效的好壞。
最後，為達到尖峰小時跑道容量最大使用與延誤最小的目標，建議現行班表合理規劃每個時點長度與安排起降型態與架次量的改善。並就新增班表可行性建立一分析評估步驟與方式，以提供時間帶安排策略之參考。

以文找文

Runway capacity estimation is the basic foundation for air traffic flow management in airport. The level of flight delays at airports affects not only passengers and the quality of airline service, but it also the performance of air traffic management. Therefore, there are four objects in this study, which estimate runway capacity, assess flight technical delay, evaluate airlines’ punctuality performance, and modify schedule timetable.
First, this research is not only applying the statistics to analyze the separated value between take-off and landing craft types but also using mathematical programming to consider the demand of take-off and landing, the constrict of the relation between take-off and landing type, to estimate take-off /landing composed type and the optimal runway capacity. Our study is suitable to estimate runway capacity in the good weather not only estimating the frequency between take-off and landing aircraft on runway but also making a strategy for time-slot management problem.
Second, this study seeks to clarify the causes, as well as measurements of approach delays. Furthermore, this study also examines the impacts of technical delays and scheduled system delays in measuring the performance of air traffic management. We also consider both the capacity constraints of a runway and the arrival/landing approach routes, using mathematical planning to construct a static-and-theoretical delay analysis of the optimization model. The availability of this model is clarified and tested to evaluate the performance of air traffic management by means of simulating the different service rules of actual flight delays. The outcome of the example shows that the estimate of the optimization model for each aircraft delay is higher than the estimate using the FIFS rule. However, the optimization model for each aircraft delay is probably either higher or lower than that for the arrival priority rule. The delay value of both FIFS and arrival priority are highly related to the delay value of the optimization model. By means of regression analysis and testing, the outcome of forecasted numbers are all within a 95% confidence interval. This proves the efficacy of the optimization model for correctly estimating actual flight delays.
Third, this study introduces both the technical delay and timetable system delay to evaluate and modify the airlines’ punctuality. A model for evaluating the performance of airlines’ punctuality is proposed. The punctuality should not be measured by 15 minutes. It should take the constraints of airport capacity and flight timetable put consideration.
At last, this study can assist timetable planning of minimum delays, choose the suitable time points and arrange suitable aircraft numbers and sequences, also proposes the planning strategies of scheduled timetable and enhance the value of available surplus capacity to analyze and arrange vacant rule of flight take-off/landing runway on the timetable.

以文找文

民航局，民用航空局飛航流量管制，民國八十四年。
民航局，民用航空局飛航總臺台北塔台業務手冊，民國八十五年。
李穗玲，松山機場跑道容量推估，中華民國運輸學會第六屆校際運輸學術學術聯誼研討會論文集，民國八十六年四月，頁1~12頁
李穗玲，機場最佳流量起降型態模式之研究，中華民國區域科學學會論文研討會，民國88年3月
李穗玲、汪進財，航機技術性延誤分析模式之研究，中華民國運輸學會第15屆學術研討會，民國89年12月，頁265~頁274。
汪進財、韓復華、李穗玲，松山機場跑道容量推估，運輸學刊，民國八十六年十二月，頁113~126頁
戚文豪，機場與空域模擬模式SIMMOD之應用研究：以松山機場為例，交通大學運輸工程與管理學系碩士論文，民國88年7月
周雅蕊,流量管理之地面等候策略之研究,成大交通管理科學研究所碩士論文,民國八十六年七月
傅耀南，機場跑道航管容量推估與飛航流量管制模式之研究，成大交通管理科學研究所博士論文，民國八十七年七月.
戴佐敏，飛航流量管理系統，中華民國第三屆運輸安全研討會，民國八十五年。
Abeyratne, I. R.,Management of airport congestion through slot allocation," Journal of Air Transport Management, 6, pp.29-41,2000.
Ahmad, I. Z. and Yu, Gang, A decision support framework for airline flight cancellations and delays, Transportation Science,Vol.27.No.3, PP.,1993
Andreussi , Alberto, Lucio Bianco,Salvatore Ricciardelli,”A simulation model for aircraft sequencing in the near termunal area”,European Journal of operational research 8,pp.345-354,1981
Andreatta, Giovanni and Lorenzo Brunetta,Multiarport ground holding problem, A Computational evaluation of exact algorithms, Operations Research Vol. 46,No.1,1998 .
Anderatta,G., Romanin-Jacur ,Aircraft flow management under congestion, Transportation Science,Vol.21.No.4,November, pp.249-253,1987
Bianco,L.,Dell’Olmo,P.,Giordani,S.,Scheduling models and algorithms for TMA traffic management, Modeling and simulation in air traffic management, pp. 139 -167,1997
Bielli, M., G.Calicchio,B.Nicoletti,and S.Ricciardelli,The air traffic flow control problem as an application of network theory,Computer＆Ops. Res.Vol.9.No.4. pp.265-278,1982.
Booth, G. R., Flow management in the United States. in Advanced technologies for air traffic flow management. Winter, H. and Nu*er, H.G. (Eds.), Springer-verlag, pp.107-119,1994.
Brinton, C. R.,An implicit enumeration algorithm for arrival aircraft scheduling,IEEE, pp.268-274,1992
CAA, National air traffic services public-private partnership:Setting the charge control for UK en route services for the first five years, 2000
Caulkins J.P., A. Barnett, P.D.Larkey, Y. Yuan, and J.Goranson”The On-Time Machines: Some Analysis of Airline Punctuality, Operation Research, ” Vol.41. No.4.pp710-720,1993.
Cheslow, Melvyn,Analysis of national delay and throughtput impacts of a new denver airport,Transportation research record 1296,pp1-12.1990.
Dear, R. G., and Sherif, Y. S, An algorithm for computer assisted sequencing and scheduling of terminal area operations. Transportation Research, Vol. 25A, Nos. 2/3, 129-139,1991.
Evans, J. E., Safely reducing delays due to adverse terminal weather. in Modeling and simulation in air traffic management. Bianco, L. Dell’Olmo, P. and Odoni, A. R., (Eds.) Springer-verlag, 185-202,1997.
FAA,Runway capacity criteria for airport planning purpose,Air transport association of Amercia(Eds),1976
FAA,Airport capacity and delay report,1983
Fan, Henry S.L.,Effect of local operational constraints on runway capacity -a case study, Journal of advanced transportation,Vol.26,No.2,pp.169-184,1992
Gilbo, E.P., Airport capacity:representation,estimation,optimization,IEEE tranctions control systems technology,Vol.1,No.3,pp.144-154,1993
Glockner, G.D.,Effects of air traffic congestion delays under several flow management policies, Transportation research record,Vol.1517, pp29-35,1993.
Gilbo, E. P., Optimizing airport capacity utilization in air traffic flow management subject to constraints at arrival and departure fixes. IEEE Transactions on control system technology, Vol. 5, No. 5, pp.490-503,1997.
Glockner, G. D., Effects of air traffic congestion delays under several flow management policies. Transportation Research Record, No 1517, pp.29-35,1993.
Hamzawi, S.G.,Lack of airport capacity: exploration of alternative solutions, Transportation research-A,Vol.26A,No.1,pp.47-58,1992
Helme, M. P., and Lindsay, Kenneth, Optimization of traffic flow to minimized delay in the national airspace system. IEEE, pp.435-437,1992.
Horonjeff, Robert ,Francis X.Mckelvey(Eds),Planning and design of airport, Fourth edition,Mc Graw-Hill,Inc.chapter 8,pp.293-361,1994
ICAO, Study looks at possible improvements to capacity management, The Magazine of the International Civil Aviation Organization, Vol. 55, No. 9, 19-21,2000.
Lemer, A. C., Measuring Performance of Airport Passenger Terminals, Transportation Research,Vol.26A,No.1. pp.37-45, 1992.
Luo, Songjun and Yu, Gang, On the airline schedule perturbation problem caused by the ground delay program, Transportation Science,Vol.31.No.4, pp. 298-311,1997.
Mar, A. V.,American airline arrival slot allocation, Interfaces, 21:1, pp.42-61,1991
Marchi, Richard, New development in ATC technology and airport capacity. in Seminar on air hub development -- challenges and strategies of modern airport. Taiwan, pp.89-100,1996.
Milan, Janic,The flow management problem in air traffic control:a model of assigning priorities for landings at a congested airport, Transportation planning and technology, Vol.20,pp.131-162,1997
Newell, G. F., Airport capacity and delay, Transportation Science, Vol. 13, No. 3, pp 201-241,1979.
Odoni, A. R., Issues in Traffic Flow Management, in Advanced Technologies for air traffic flow management, H.Winter and H.-g. Nu*er(Eds.),Spring-Verlag London Limited,1994
Odoni, A. R.,The flow management problem in air traffic control, in Flow Control of Congested Networks,Amedeo R.Odoni,Lucio Bianco,AND Giorgio Szego(Eds) ,Spring-Verla Berlin Heidelberg , NATO ASI series, Vol. F38. pp.269-288,1987
Richetta,Octavio Odoni, A.R.,Solving Optimally the Static Ground- Holding Policy Problem in air traffic control, Transportation Science,Vol.27. November, pp.228-238,1993
Richetta,Octavio, Odoni,A.R.,Dynamic solution to the ground-holding problem air traffic control,Transportation Research.A.Vol.28A.No.3.pp.167-185,1994
Richetta,Octavio ,Optimal algorithms and a remarkably efficient heuristic for the ground-holding problem in air traffic control,Operation Research, Vol.43. No.5. September-October,pp.758-770,1995
Rutner, S. M., Mundy, R. A., and Whitaker, Jonathan, Alternatives for reducing delays at the United States'' busiest airport. Transportation Journal, Spring,pp.18-25 ,1997.
Shaw, Stephen (Eds),Airline Marketing and Management, Bath Press, pp.164-165, 1987.
Stark, D.,Allocating airport slots: a role for the market ?, Journal of Air Transport Management, 4, pp.111-116,1998.
Stephen L.M., Hockaday and Adib K. Kanafani,Developments in airport capacity analysis,Transportation research ,Vol.8,No.3,pp.171-180,1974.
Swedish,W.J., Capacity and Delay analysis of Taipei airport, the MITRE corporation, Auguest, 1996
Terrab, Mostafa and Saaju Paulose,Dynamic Strategic and Tactical air traffic flow
control, IEEE pp.243-248,1992
Terrab,Mostafa, Odoni, A.R.,Strageic flow management for air traffic control, Operation Research Vol.41,No.1,January-February,pp.138-152,1993
Teodorovic, D. S., Obrad Basic,Fuzzy inference approach to the flow management problem in air traffic control, Transportation planning and technology, Vol.17,pp.165-178,1993
Tosic, V., O.Babic,Air flow management-problems and research efforts, Transportation planning and technology, Vol.19,pp.63-72,1995
Tosic, V.,O.Babic,M.Cangalovic and D.Hohlacoc,Some models and algorithms for en route air traffic flow management, Transportation planning and technology, Vol. 19,pp.147-164,1995
Tosic, V., Robert Horonjeff ,Effect of multiple path approach procedures on runway landing capacity, Transportation research,Vol.10,No.5,pp.319-329,1976
Venkatakrishnan, C. S., Arnold Barnett, and Odoni, A. R., Landing at airport: describing and increasing airport capacity, Transportation Science, Vol.27, No. 3, pp.211-227,1993.
Vranas, P. B., Dimitris J. Bertsimas,Amedeo R.Odoni,Dynamic Ground- Holding policies for a network of airport,Transportation Science, Vol.28, No.4 ,August 1994
Vranas,P.B., Vranas,Dimitris J. Bertsimas and Amedeo R.Odoni,The multi-airport ground-holding problem in air traffic control,Operation Research, Vol.42. No.2 , March -April,pp249-261,1994
Wong, J.T., Sui-Ling Li, and David Gillingwater “An Optimisation Model for Assessing Flight Technical Delay,” Transportation Planning and Technology, Vol 24. No 3.

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