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Congestion Management Rule for John F. Kennedy International Airport and Newark Liberty International Airport (US Federal Aviation Administration Regulation) (FAA) (2018 Edition) The Law Library presents the complete text of the Congestion Management Rule for John F. Kennedy International Airport and Newark Liberty International Airport (US Federal Aviation Administration Regulation) (FAA) (2018 Edition). Updated as of May 29, 2018 The FAA proposes to establish procedures to address congestion in the New York City area by assigning slots at John F. Kennedy (JFK) and Newark Liberty (Newark) International Airports in a way that allows carriers to respond to market forces to drive efficient airline behavior. This proposal is a companion to a separate rulemaking initiative addressing congestion mitigation at New York's LaGuardia airport. Today's proposal is similar to what we have proposed for LaGuardia airport, but it takes into consideration the characteristics of both JFK and Newark, including the large number of international flights at these airports and our international obligations. The FAA proposes to extend the caps on the operations at the two airports, assign to existing operators the majority of slots at the airports, and create a market by annually auctioning off a limited number of slots in each of the first five years of this rule. The FAA is proposing two alternatives. This book contains: - The complete text of the Congestion Management Rule for John F. Kennedy International Airport and Newark Liberty International Airport (US Federal Aviation Administration Regulation) (FAA) (2018 Edition) - A table of contents with the page number of each section
Since the phasing-out of the High Density Rule, access to major commercial airports in the United States has been unconstrained or, in the case of the airports of New York, weakly constrained. This largely unregulated demand combined with capacity constraints led to record delay levels in 2007, whose costs were estimated as in excess of $30 billion a year. Mitigating airport congestion may be achieved through demand management measures. Quantifying the benefits of such measures requires careful modeling of flight delays as a function of flight schedules. This thesis applies a stochastic and dynamic queuing model to analyze operations at JFK and Newark (EWR), two of the most congested airports in the United States. Two models are used to approximate the dynamics of the queuing system: a numerical model called DELAYS and a new Monte Carlo simulation model, which combines time-varying stochastic models of demand and capacity. These two models are then calibrated and validated using historical records of operations. In particular, they provide estimates of the average throughput rate at JFK and EWR under different weather conditions. The models are then shown to predict accurately both the magnitude of the delays and their evolution over the course of a day of operations. In addition, the Monte Carlo simulation model evaluates reasonably well the variability of the delays between successive days of operations. These two models are then applied to a study of recent trends in scheduling and ontime performance at JFK and EWR. The analysis indicates that the significant delay reductions observed between 2007 and 2010 can be largely attributed to the relatively small reduction of airport demand over this period. In particular, it demonstrates the strongly nonlinear relationship between demand and delays when airports operate close to capacity. It also shows that, for a given daily number of flights, the more evenly they are distributed in a day, the lower the resulting delays are likely to be.