Critique of the Aircraft Delay Curves in "Techniques for Determining Airport Airside Capacity and Delay" PDF Download
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Author: Carl T. Ball
Publisher:
ISBN:
Category :
Languages : en
Pages : 186
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Author: Carl T. Ball
Publisher:
ISBN:
Category :
Languages : en
Pages : 186
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Author: Amedeo R. Odoni
Publisher:
ISBN:
Category : Air traffic control
Languages : en
Pages : 88
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Introduction: The estimation of average and total airside delays and delay costs at major airports requires considerable and time-consuming effort, usually centered on an analysis based either on queuing theory or on computer-supported simulation. Alternatively (and preferably, if one can afford it) an extensive data-collection program on delays at the airport of interest can be initiated. Such a program unfortunately must often be carried out over long periods of time and is fraught with statistical pitfalls. Besides, any amount of information is of little value to future planning and forecasting if it is not coupled with an understanding of the underlying relationships between capacity, demand and delays at the airport. As a means of by-passing such difficulties, the work described here is aimed at providing a simple and practical tool for estimating delay-related statistics quickly and inexpensively. In a way, it is an attempt to provide planners and airport administrators alike with an easy-to-use "handbook" from which airport delays can be obtained using only knowledge of a few basic variables associated with any given airport. The basic quantity with which the handbook deals is that of average total daily delays (TDDEL), i.e. the total delays suffered in the course of a typical day by aircraft attempting to use the runways of an airport. The delays referred to here are solely those due to normal runway congestion and do not reflect problems that may be due, for instance, to exceptional weather conditions or to other causes. No distinction is made between delays suffered by landing aircraft which have to queue in the air and those suffered by departing aircraft waiting on the ground (the latter being obviously a less severe condition). It should also be emphasized at the outset that delay estimates provided through this method lay no special claim to extreme accuracy. It is believed however that good approximations (more than adequate for most planning purposes) will most often be obtained. Exceptions do exist, as described in Chapter 2 and in Chapter 3 (which also discuss the question of accuracy in some detail). Chapter 2 summarizes the technical approach used in arriving at the main product of this work, the TDDEL graphs. The theoretical methodology, the sequence of assumptions used, the computational approach, and a brief discussion of the accuracy and sensitivity of the results are presented in that order. Chapter 3 is intended as (and written in the form of) a self-sufficient user's guide for the estimation of delay statistics through the TDDEL graphs. It also contains several numerical examples illustrating the use of this tool. The reader who is not interested in the technical details may want to omit Chapter 2 and read Chapter 3 only with no loss of continuity.
Author: DOUGLAS AIRCRAFT CO LONG BEACH CALIF.
Publisher:
ISBN:
Category :
Languages : en
Pages : 239
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This report contains procedures for determining the capacity of the airfield and its components and for determining delays to aircraft operating on the airfield. This report is structured to permit the user to choose the method of analysis most suited to the complexity of the user's problem or the level of detail desired.
Author:
Publisher: Transportation Research Board
ISBN: 0309283809
Category : Airport capacity
Languages : en
Pages : 74
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Book Description
"TRB's Airport Cooperative Research Program (ACRP) Report 104: Defining and Measuring Aircraft Delay and Airport Capacity Thresholds offers guidance to help airports understand, select, calculate, and report measures of delay and capacity. The report describes common metrics, identifies data sources, recommends metrics based on an airport's needs, and suggests ways to potentially improve metrics."--Publisher's description.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 82
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Author: Robert Horonjeff
Publisher: McGraw-Hill Companies
ISBN:
Category : Technology & Engineering
Languages : en
Pages : 648
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Book Description
This edition of this work is updated & expanded to reflect the latest developments in the planning & design of airports. It now features coverage of the geometric design of landing areas, air traffic control systems, airport security, demand forecasting, airport financing, environmental assessment, terminal & ground access system planning, & heliport & vertiport design. It also provides modern approaches to lighting, signing, & marking of airfields... paving runways... & much more. Planning & Design of Airports is an indispensable reference for civil engineers, transportation engineers, government planners, architects, & all others involved in any aspect of airport planning & design.
Author: Bo Zou (Writer on transportation)
Publisher:
ISBN:
Category :
Languages : en
Pages : 238
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Book Description
Infrastructure capacity investment has been traditionally viewed as an important means to mitigate congestion and delay in the air transportation system. Given the huge amount of cost involved, justifying the benefit returns is of critical importance when making investment decisions. This dissertation proposes an equilibrium-based benefit assessment framework for aviation infrastructure capacity investment. This framework takes into consideration the interplays among key system components, including flight delay, passenger demand, flight traffic, airline cost, and airfare, and their responses to infrastructure capacity investment. We explicitly account for the impact of service quantity changes on benefit assessment. Greater service quantity is associated with two positive feedback effects: the so-called Mohring effect and economies of link/segment density. On the other hand, greater service quantity results in diseconomies of density at nodes/airports, because higher traffic density at the airport leads to greater airport delays. The capacity-constrained system equilibrium is derived from those competing forces. Two approaches are developed to investigate air transport system equilibrium and its shift in response to infrastructure capacity expansion. In Chapter 2, we first view the system equilibrium from the airline competition perspective. We model airlines' gaming behavior for airfare and frequency in duopoly markets, assuming that airlines have the knowledge of individuals' utility structure while making decisions, and that delay negatively affects individuals' utility and increases airline operating cost. The theoretical airline competition model developed in Chapter 2 provides analytical insights into the interactions among various system components. Under a symmetric Nash equilibrium, we find that the presence of flight delay increases passenger generalized cost and discourages air travel. Airlines would not pass delay cost entirely onto passengers through higher fare, but also account for the impact of service degradation on passenger willingness-to-pay and consequently passenger demand. To avoid exorbitant flight delays, airlines would use larger aircraft, meanwhile taking advantage of economies of aircraft size. The resulting unit cost reduction partially offsets operating delay cost increase. The equilibrium shift triggered by capacity expansion reduces both schedule delay and flight delay, leading to lower passenger generalized cost and higher demand, despite slightly increased airfare. Airlines will receive larger profit, and consumer welfare will increase, as a result of the expansion. Although delay reduction is less than expected because of induced demand, the overall benefit, which encompasses reduction in both schedule delay and flight delay, would be much greater than estimated from a purely delay-based standpoint. The equilibrium analysis can be alternatively approached from a traveler-centric perspective. The premise of an air transport user (i.e. traveler) equilibrium is that each traveler in the air transportation system maximizes his/her utility when making travel decisions. The utility depends upon market supply and performance characteristics, consisting of airfare, flight frequency, and flight delay. The extent of airline competition is implicitly reflected in the determination of airfare and flight frequency. Given the limited empirical evidence of the delay effect on air transportation system supply, two econometric models for airfare and flight frequency are estimated in Chapter 3. We find positive delay effect on fare, which should be interpreted as the net effect of airlines' tendency to pass delay cost to passengers while also compensating for service quality degradation. Higher delay discourages carriers from scheduling more flights on a segment. Both delay effects, however, are relatively small. The estimated fare and frequency models, together with passenger demand and airport delay models presented in Chapter 4, are integrated to formulate the air transport user equilibrium as fixed point and variational inequality problems. We prove that the equilibrium existence is guaranteed; whereas equilibrium uniqueness cannot be guaranteed. We apply the user equilibrium to a fully connected, hypothetical network with the co-existence of direct and connecting air services. Using a simple, heuristic algorithm, we find that the equilibrium is insensitive to initial demand values, suggesting that there may be a single equilibrium for this particular model instance. Hub capacity investment attracts spoke-spoke passengers from non-stop routes, and generates new demand on hub-related routes. At the market level, hub capacity expansion would result in greater total demand and consequently passenger benefits in almost all markets--except for ones where a predominant portion of passengers choose non-stop routes due to extremely high circuity for one-stop travel. In the latter set of markets, after capacity expansion passenger demand and benefits would be both reduced. This counter-intuitive result carries important implications that capacity increase does not necessarily benefit everyone in the system. Similar to the findings from the airline competition model, with changes in flight delay, schedule delay, airfare, and total demand, the user equilibrium model yields much higher passenger benefits from capacity investment than the conventional method; whereas hub delay saving is offset by traffic diversion and induced demand. With continuous capacity investment, the air transportation network will witness substantial changes in service supply and traffic patterns.
Author: Yufeng Tu
Publisher: VDM Verlag
ISBN: 3836422301
Category : Air traffic control
Languages : en
Pages : 100
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Book Description
The U.S. National Airspace System (NAS) is inherently highly stochastic. Yet, many existing decision-support tools for air traffic flow management take a deterministic approach to problem solving. This study aims to focus on the random and dynamic nature of flight departure delays to provide a more ac-curate picture of the airspace traffic situation, improve the prediction of the airspace congestion, and advance the level of decision making in aviation systems. Several models were proposed in this work based on the trends and patterns demonstrated by the delays. These models show reasonable goodness of fit, robustness to the choice of the model parameters, and good predictive capabilities. They could further advance the Enhanced Traffic Management System that is currently adopted by the Federal Aviation Administration. Mathematical algorithms used in this work can be adapted to similar pro-blems in other fields. The book is addressed to professionals and researchers in Air Transportations and Statistics.
Author: Transportation Development Centre (Canada)
Publisher: The Centre
ISBN:
Category : Air traffic control
Languages : en
Pages : 294
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Book Description
Project to develop a methodology for determining the magnitude and sources of delays at Canadian airports in general and at Lester B. Pearson International Airport (LBPIA) in particular. This involved developing a logical data base of all relevant data about aircraft movement at LBPIA from air traffic services, air carriers, voice tapes of communications between pilot and air controller, and other data generated from ARC sources or organizations such as ICAO. The decoding of the voice tapes involved the use of a proprietary, human-operated speech component recognition software that ran in parallel with the playback of the tapes. This report describes the data sources and the detailed data analysis and development of appropriate prototype algorithms.
Author:
Publisher:
ISBN:
Category : Aeronautics
Languages : en
Pages : 1068
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