Polyhedral Analysis and Algorithms for a Demand-Driven Refleeting Model for Aircraft Assignment

The current airline practice in conducting fleet assignments is to begin assigning aircraft capacity to scheduled flights well in advance of departures. However, the accuracy of the passenger demand forecast improves markedly over time, and revisions to the initial fleet assignment become naturally...

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Veröffentlicht in:	Transportation science 2005-08, Vol.39 (3), p.349-366
Hauptverfasser:	Sherali, Hanif D, Bish, Ebru K, Zhu, Xiaomei
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Sprache:	eng
Schlagworte:	Air traffic Air transport Air transportation and traffic Aircraft Aircraft industry airline fleet assignment Airline scheduling Airlines Algorithms Analysis Applied sciences Capacity Civil aviation Demand Demand (Economics) demand-driven refleeting Exact sciences and technology Flight paths Functions, Polyhedral Ground, air and sea transportation, marine construction Heuristics Inequality Integer programming mixed-integer programming Modeling Passengers path demands Planning methods polyhedral analysis Statistical analysis Transportation Transportation planning, management and economics United Airlines valid inequalities Vehicular flight
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creator	Sherali, Hanif D Bish, Ebru K Zhu, Xiaomei
description	The current airline practice in conducting fleet assignments is to begin assigning aircraft capacity to scheduled flights well in advance of departures. However, the accuracy of the passenger demand forecast improves markedly over time, and revisions to the initial fleet assignment become naturally pertinent when the observed demand differs considerably from the assigned aircraft capacities. The demand-driven refleeting (DDR) approach proposed in this paper offers a dynamic reassignment of aircraft capacities to the flight network, when improved demand forecasts become available, so as to maximize the total revenue. Because of the need to preserve the initial crew schedule, this reassignment approach is limited within a single family of aircraft types and to the flights assigned to this particular family. This restriction makes it computationally tractable to include more relevant path-level demand information into the DDR model. Accordingly, we construct a mixed-integer programming model for this enhanced problem context and study its polyhedral structure to explore ways for tightening its representation and for deriving certain classes of valid inequalities. Various schemes for implementing such reformulation techniques are investigated and tested using a set of simulated and real instances obtained from United Airlines.
doi_str_mv	10.1287/trsc.1040.0090
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Ebru K</au><au>Zhu, Xiaomei</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Polyhedral Analysis and Algorithms for a Demand-Driven Refleeting Model for Aircraft Assignment</atitle><jtitle>Transportation science</jtitle><date>2005-08-01</date><risdate>2005</risdate><volume>39</volume><issue>3</issue><spage>349</spage><epage>366</epage><pages>349-366</pages><issn>0041-1655</issn><eissn>1526-5447</eissn><coden>TRSCBJ</coden><abstract>The current airline practice in conducting fleet assignments is to begin assigning aircraft capacity to scheduled flights well in advance of departures. However, the accuracy of the passenger demand forecast improves markedly over time, and revisions to the initial fleet assignment become naturally pertinent when the observed demand differs considerably from the assigned aircraft capacities. The demand-driven refleeting (DDR) approach proposed in this paper offers a dynamic reassignment of aircraft capacities to the flight network, when improved demand forecasts become available, so as to maximize the total revenue. Because of the need to preserve the initial crew schedule, this reassignment approach is limited within a single family of aircraft types and to the flights assigned to this particular family. This restriction makes it computationally tractable to include more relevant path-level demand information into the DDR model. Accordingly, we construct a mixed-integer programming model for this enhanced problem context and study its polyhedral structure to explore ways for tightening its representation and for deriving certain classes of valid inequalities. Various schemes for implementing such reformulation techniques are investigated and tested using a set of simulated and real instances obtained from United Airlines.</abstract><cop>Linthicum, MD</cop><pub>INFORMS</pub><doi>10.1287/trsc.1040.0090</doi><tpages>18</tpages></addata></record>
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subjects	Air traffic Air transport Air transportation and traffic Aircraft Aircraft industry airline fleet assignment Airline scheduling Airlines Algorithms Analysis Applied sciences Capacity Civil aviation Demand Demand (Economics) demand-driven refleeting Exact sciences and technology Flight paths Functions, Polyhedral Ground, air and sea transportation, marine construction Heuristics Inequality Integer programming mixed-integer programming Modeling Passengers path demands Planning methods polyhedral analysis Statistical analysis Transportation Transportation planning, management and economics United Airlines valid inequalities Vehicular flight
title	Polyhedral Analysis and Algorithms for a Demand-Driven Refleeting Model for Aircraft Assignment
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